Scribd
Upload
7 views43 pages

Crash Log 1

How to find Crash log pt1

Uploaded by

hellobiz592
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as TXT, PDF, TXT or read online on Scribd
7 views43 pages

Crash Log 1

How to find Crash log pt1

Uploaded by

hellobiz592
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as TXT, PDF, TXT or read online on Scribd
You are on page 1/ 43

RFactory.

cpp:226 All registered operations


CPUKernels:
(0x70b542d960) !=(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542da40) !=(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542db20) !=(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542dc00) !=(x: Point2i, y: Point2i) -> output: Int /*CPU Kernel*/
(0x70b542dce0) !=(x: Point2i, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542ddc0) !=(x: Point2i, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542dea0) !=(x: Point2f, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542df80) !=(x: Point2f, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542e060) !=(x: Point2i, y: Point2f) -> output: Int /*CPU Kernel*/
(0x70b5417820) %(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b5417900) %(x: Point2i, y: Int) -> output: Point2i /*CPU Kernel*/
(0x70b54179e0) %(x: Buffer_8, y: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5417ac0) %(x: Buffer_Int, y: Buffer_Int) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b5417ba0) %(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b5417c80) %(x: Point2i, y: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70b5417d60) %(x: Buffer_8, y: Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5417e40) %(x: Buffer_Int, y: Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5417f20) %(x: Buffer_ARGB_8888, y: Int) -> output: Buffer_ARGB_8888
/*CPU Kernel*/
(0x70b5418000) %(x: Image_8, y: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b54180e0) %(x: Image_ARGB_8888, y: Image_ARGB_8888) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b54181c0) %(x: Image_8, y: Int) -> output: Image_8 /*CPU Kernel*/
(0x70b54182a0) %(x: Image_ARGB_8888, y: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5414720) *(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b5414800) *(x: Float, y: Float) -> output: Float /*CPU Kernel*/
(0x70b54148e0) *(x: Point2i, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70b54149c0) *(x: Point2i, y: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70b5414aa0) *(x: Point2f, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70b5414b80) *(x: Int, y: Float) -> output: Float /*CPU Kernel*/
(0x70b5414c60) *(x: Point2i, y: Int) -> output: Point2i /*CPU Kernel*/
(0x70b5414d40) *(x: Point2f, y: Int) -> output: Point2f /*CPU Kernel*/
(0x70b5414e20) *(x: Point2f, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70b5414f00) *(x: Point2i, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70b5414fe0) *(x: Buffer_8, y: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70b54150c0) *(x: Buffer_Int, y: Buffer_Int) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b54151a0) *(x: Buffer_Float, y: Buffer_Float) -> output: Buffer_Float
/*CPU Kernel*/
(0x70b5415280) *(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b5415360) *(x: Buffer_8, y: Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5415440) *(x: Buffer_8, y: Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5415520) *(x: Buffer_Int, y: Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5415600) *(x: Buffer_Int, y: Float) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b54156e0) *(x: Buffer_Float, y: Int) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b54157c0) *(x: Buffer_Float, y: Float) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b54158a0) *(x: Buffer_ARGB_8888, y: Int) -> output: Buffer_ARGB_8888
/*CPU Kernel*/
(0x70b5415980) *(x: Buffer_ARGB_8888, y: Float) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b5415a60) *(x: Image_8, y: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b5415b40) *(x: Image_ARGB_8888, y: Image_ARGB_8888) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5415c20) *(x: Image_8, y: Int) -> output: Image_8 /*CPU Kernel*/
(0x70b5415d00) *(x: Image_ARGB_8888, y: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5415de0) *(x: Image_8, y: Float) -> output: Image_8 /*CPU Kernel*/
(0x70b5415ec0) *(x: Image_ARGB_8888, y: Float) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70bbb4e620) +(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70bbb4e700) +(x: Int, y: Float) -> output: Float /*CPU Kernel*/
(0x70bbb4e7e0) +(x: Point2i, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70bbb4e8c0) +(x: Point2i, y: Int) -> output: Point2i /*CPU Kernel*/
(0x70bbb4e9a0) +(x: Point2f, y: Int) -> output: Point2f /*CPU Kernel*/
(0x70bbb4ea80) +(x: Point2f, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70bbb4eb60) +(x: Point2i, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70bbb4ec40) +(x: Float, y: Float) -> output: Float /*CPU Kernel*/
(0x70bbb4ed20) +(x: Point2i, y: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70bbb4ee00) +(x: Point2f, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70bbb4eee0) +(x: Buffer_8, y: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb4efc0) +(x: Buffer_Int, y: Buffer_Int) -> output: Buffer_Int /*CPU
Kernel*/
(0x70bbb4f0a0) +(x: Buffer_Float, y: Buffer_Float) -> output: Buffer_Float
/*CPU Kernel*/
(0x70bbb4f180) +(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70bbb4f260) +(x: Buffer_8, y: Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb4f340) +(x: Buffer_8, y: Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb4f420) +(x: Buffer_Int, y: Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70bbb4f500) +(x: Buffer_Int, y: Float) -> output: Buffer_Int /*CPU
Kernel*/
(0x70bbb4f5e0) +(x: Buffer_Float, y: Int) -> output: Buffer_Float /*CPU
Kernel*/
(0x70bbb4f6c0) +(x: Buffer_Float, y: Float) -> output: Buffer_Float /*CPU
Kernel*/
(0x70bbb4f7a0) +(x: Buffer_ARGB_8888, y: Int) -> output: Buffer_ARGB_8888
/*CPU Kernel*/
(0x70bbb4f880) +(x: Buffer_ARGB_8888, y: Float) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70bbb4f960) +(x: Image_8, y: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70bbb4fa40) +(x: Image_ARGB_8888, y: Image_ARGB_8888) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70bbb4fb20) +(x: Image_8, y: Int) -> output: Image_8 /*CPU Kernel*/
(0x70bbb4fc00) +(x: Image_ARGB_8888, y: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70bbb4fce0) +(x: Image_8, y: Float) -> output: Image_8 /*CPU Kernel*/
(0x70bbb4fdc0) +(x: Image_ARGB_8888, y: Float) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70bbb4fea0) -(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70bbb4ff80) -(x: Float, y: Float) -> output: Float /*CPU Kernel*/
(0x70bbb50060) -(x: Point2i, y: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70bbb50140) -(x: Point2f, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70bbb50220) -(x: Point2i, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70bbb50300) -(x: Int, y: Float) -> output: Float /*CPU Kernel*/
(0x70bbb503e0) -(x: Point2i, y: Int) -> output: Point2i /*CPU Kernel*/
(0x70bbb504c0) -(x: Point2f, y: Int) -> output: Point2f /*CPU Kernel*/
(0x70bbb505a0) -(x: Point2f, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70bbb50680) -(x: Point2i, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70bbb50760) -(x: Buffer_8, y: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb50840) -(x: Buffer_Int, y: Buffer_Int) -> output: Buffer_Int /*CPU
Kernel*/
(0x70bbb50920) -(x: Buffer_Float, y: Buffer_Float) -> output: Buffer_Float
/*CPU Kernel*/
(0x70bbb50a00) -(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70bbb50ae0) -(x: Buffer_8, y: Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb50bc0) -(x: Buffer_8, y: Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb50ca0) -(x: Buffer_Int, y: Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70bbb50d80) -(x: Buffer_Int, y: Float) -> output: Buffer_Int /*CPU
Kernel*/
(0x70bbb50e60) -(x: Buffer_Float, y: Int) -> output: Buffer_Float /*CPU
Kernel*/
(0x70bbb50f40) -(x: Buffer_Float, y: Float) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5414020) -(x: Buffer_ARGB_8888, y: Int) -> output: Buffer_ARGB_8888
/*CPU Kernel*/
(0x70b5414100) -(x: Buffer_ARGB_8888, y: Float) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54141e0) -(x: Image_8, y: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b54142c0) -(x: Image_ARGB_8888, y: Image_ARGB_8888) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b54143a0) -(x: Image_8, y: Int) -> output: Image_8 /*CPU Kernel*/
(0x70b5414480) -(x: Image_ARGB_8888, y: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5414560) -(x: Image_8, y: Float) -> output: Image_8 /*CPU Kernel*/
(0x70b5414640) -(x: Image_ARGB_8888, y: Float) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b5415fa0) /(x: Point2i, y: Int) -> output: Point2i /*CPU Kernel*/
(0x70b5416080) /(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b5416160) /(x: Float, y: Float) -> output: Float /*CPU Kernel*/
(0x70b5416240) /(x: Point2i, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70b5416320) /(x: Point2i, y: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70b5416400) /(x: Point2f, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70b54164e0) /(x: Int, y: Float) -> output: Float /*CPU Kernel*/
(0x70b54165c0) /(x: Point2f, y: Int) -> output: Point2f /*CPU Kernel*/
(0x70b54166a0) /(x: Point2f, y: Float) -> output: Point2f /*CPU Kernel*/
(0x70b5416780) /(x: Point2i, y: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70b5416860) /(x: Buffer_8, y: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5416940) /(x: Buffer_Int, y: Buffer_Int) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b5416a20) /(x: Buffer_Float, y: Buffer_Float) -> output: Buffer_Float
/*CPU Kernel*/
(0x70b5416b00) /(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b5416be0) /(x: Buffer_8, y: Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5416cc0) /(x: Buffer_8, y: Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5416da0) /(x: Buffer_Int, y: Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5416e80) /(x: Buffer_Int, y: Float) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b5416f60) /(x: Buffer_Float, y: Int) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5417040) /(x: Buffer_Float, y: Float) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5417120) /(x: Buffer_ARGB_8888, y: Int) -> output: Buffer_ARGB_8888
/*CPU Kernel*/
(0x70b5417200) /(x: Buffer_ARGB_8888, y: Float) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54172e0) /(x: Image_8, y: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b54173c0) /(x: Image_ARGB_8888, y: Image_ARGB_8888) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b54174a0) /(x: Image_8, y: Int) -> output: Image_8 /*CPU Kernel*/
(0x70b5417580) /(x: Image_ARGB_8888, y: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5417660) /(x: Image_8, y: Float) -> output: Image_8 /*CPU Kernel*/
(0x70b5417740) /(x: Image_ARGB_8888, y: Float) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b5428560) 2Dto3D(points: Buffer_Float) -> points: Buffer_Float /*CPU
Kernel*/
(0x70b5428640) 3Dto2D(points: Buffer_Float) -> points: Buffer_Float /*CPU
Kernel*/
(0x70b542d0a0) <(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542d180) <(x: Float, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542d260) <(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542d340) <(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542d420) <=(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542d500) <=(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542d5e0) <=(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542c700) =(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542c7e0) =(x: Float, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542c8c0) =(x: Point2i, y: Point2i) -> output: Int /*CPU Kernel*/
(0x70b542c9a0) =(x: Point2f, y: Point2f) -> output: Int /*CPU Kernel*/
(0x70b542ca80) =(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542cb60) =(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cc40) =(x: Point2i, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cd20) =(x: Point2i, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542ce00) =(x: Point2f, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cee0) =(x: Point2f, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542cfc0) =(x: Point2i, y: Point2f) -> output: Int /*CPU Kernel*/
(0x70b542c700) =(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542c7e0) =(x: Float, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542c8c0) =(x: Point2i, y: Point2i) -> output: Int /*CPU Kernel*/
(0x70b542c9a0) =(x: Point2f, y: Point2f) -> output: Int /*CPU Kernel*/
(0x70b542ca80) =(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542cb60) =(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cc40) =(x: Point2i, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cd20) =(x: Point2i, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542ce00) =(x: Point2f, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542cee0) =(x: Point2f, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542cfc0) =(x: Point2i, y: Point2f) -> output: Int /*CPU Kernel*/
(0x70b542c380) >(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542c460) >(x: Float, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542c540) >(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542c620) >(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542d6c0) >=(x: Int, y: Int) -> output: Int /*CPU Kernel*/
(0x70b542d7a0) >=(x: Int, y: Float) -> output: Int /*CPU Kernel*/
(0x70b542d880) >=(x: Float, y: Int) -> output: Int /*CPU Kernel*/
(0x70b7af8918) Scaliar([value: ARGB_8888]) -> value: ARGB_8888 /*Value
Kernel*/
(0x70b542be40) Abs(input: Int) -> output: Int /*CPU Kernel*/
(0x70b5447120) AdjustParametersSetup(hue: Int, saturation: Int, temperature:
Int) -> hueAmount: Float, saturationAmount: Float, temperatureAmount: Float,
temperatureSign: Float /*CPU Kernel*/
(0x70b542e140) AngleToRadian(input: Int) -> output: Float /*CPU Kernel*/
(0x70b5429d00) AspectFill(size: Point2i, bounds: Point2i) -> output:
Point2i /*CPU Kernel*/
(0x70b5429de0) AspectFill(size: Point2f, bounds: Point2f) -> output:
Point2f /*CPU Kernel*/
(0x70b54298a0) AspectFit(size: Point2i, bounds: Point2i) -> output:
Point2i /*CPU Kernel*/
(0x70b5429980) AspectFit(size: Point2f, bounds: Point2f) -> output:
Point2f /*CPU Kernel*/
(0x70b54288e0) AspectTransform2D([mode: Int], source_size: Point2i,
canvas_size: Point2i) -> transform: Buffer_Float, coords: Buffer_Float /*CPU
Kernel*/
(0x70b542eca0) At(input: Buffer_Float, index: Int) -> output: Float /*CPU
Kernel*/
(0x70b5447d60) AutoTeethWhitening(source: Image_ARGB_8888, [amount: Int],
rects: Buffer_Float, landmarks: Buffer_Float) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b541a3e0) BlackAndWhite(source: Image_ARGB_8888, [reds: Int], [oranges:
Int], [yellows: Int], [greens: Int], [cyans: Int], [blues: Int], [purples: Int],
[magentas: Int]) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541a220) Blend(top: Image_ARGB_8888, bottom: Image_ARGB_8888, [red:
Int], [green: Int], [blue: Int], [blend_mode: Int]) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b542a4e0) BoxBlur(source: Image_ARGB_8888, kernel_size: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b541aca0) BrightnessContrast(brightness: Float, contrast: Float) -> lut:
Buffer_8 /*CPU Kernel*/
(0x70b7b5b198) Buffer([value: Buffer_Float]) -> value: Buffer_Float /*Value
Kernel*/
(0x70b7b5b258) Buffer([value: Buffer_Int]) -> value: Buffer_Int /*Value
Kernel*/
(0x70b7b5b318) Buffer([value: Buffer_8]) -> value: Buffer_8 /*Value Kernel*/
(0x70b7b5b3d8) Buffer([value: Buffer_Point2f]) -> value: Buffer_Point2f
/*Value Kernel*/
(0x70b7b5b498) Buffer([value: Buffer_Point2i]) -> value: Buffer_Point2i
/*Value Kernel*/
(0x70b7b5b558) Buffer([value: Buffer_ARGB_8888]) -> value:
Buffer_ARGB_8888 /*Value Kernel*/
(0x70b7b5b618) Buffer([value: Buffer_RGB_888]) -> value: Buffer_RGB_888
/*Value Kernel*/
(0x70b542ed80) BufferFrom([0: Float], [1: Float], [2: Float], [3: Float], [4:
Float], [5: Float], [6: Float], [7: Float], [8: Float], [9: Float], [10: Float],
[11: Float], [12: Float], [13: Float], [14: Float], [15: Float], [16: Float], [17:
Float], [18: Float], [19: Float], [20: Float], [21: Float], [22: Float], [23:
Float], [24: Float], [25: Float], [26: Float], [27: Float], [28: Float], [29:
Float], [30: Float], [31: Float], [32: Float], [33: Float], [34: Float], [35:
Float], [36: Float], [37: Float], [38: Float], [39: Float], [40: Float], [41:
Float], [42: Float], [43: Float], [44: Float], [45: Float], [46: Float], [47:
Float], [48: Float], [49: Float], [50: Float], [51: Float], [52: Float], [53:
Float], [54: Float], [55: Float], [56: Float], [57: Float], [58: Float], [59:
Float], [60: Float], [61: Float], [62: Float], [63: Float]) -> output: Buffer_Float
/*CPU Kernel*/
(0x70b542ee60) BufferFrom([0: Int], [1: Int], [2: Int], [3: Int], [4: Int],
[5: Int], [6: Int], [7: Int], [8: Int], [9: Int], [10: Int], [11: Int], [12: Int],
[13: Int], [14: Int], [15: Int], [16: Int], [17: Int], [18: Int], [19: Int], [20:
Int], [21: Int], [22: Int], [23: Int], [24: Int], [25: Int], [26: Int], [27: Int],
[28: Int], [29: Int], [30: Int], [31: Int], [32: Int], [33: Int], [34: Int], [35:
Int], [36: Int], [37: Int], [38: Int], [39: Int], [40: Int], [41: Int], [42: Int],
[43: Int], [44: Int], [45: Int], [46: Int], [47: Int], [48: Int], [49: Int], [50:
Int], [51: Int], [52: Int], [53: Int], [54: Int], [55: Int], [56: Int], [57: Int],
[58: Int], [59: Int], [60: Int], [61: Int], [62: Int], [63: Int]) -> output:
Buffer_Int /*CPU Kernel*/
(0x70b542ef40) BufferFrom([0: Point2i], [1: Point2i], [2: Point2i], [3:
Point2i], [4: Point2i], [5: Point2i], [6: Point2i], [7: Point2i], [8: Point2i], [9:
Point2i], [10: Point2i], [11: Point2i], [12: Point2i], [13: Point2i], [14:
Point2i], [15: Point2i], [16: Point2i], [17: Point2i], [18: Point2i], [19:
Point2i], [20: Point2i], [21: Point2i], [22: Point2i], [23: Point2i], [24:
Point2i], [25: Point2i], [26: Point2i], [27: Point2i], [28: Point2i], [29:
Point2i], [30: Point2i], [31: Point2i], [32: Point2i], [33: Point2i], [34:
Point2i], [35: Point2i], [36: Point2i], [37: Point2i], [38: Point2i], [39:
Point2i], [40: Point2i], [41: Point2i], [42: Point2i], [43: Point2i], [44:
Point2i], [45: Point2i], [46: Point2i], [47: Point2i], [48: Point2i], [49:
Point2i], [50: Point2i], [51: Point2i], [52: Point2i], [53: Point2i], [54:
Point2i], [55: Point2i], [56: Point2i], [57: Point2i], [58: Point2i], [59:
Point2i], [60: Point2i], [61: Point2i], [62: Point2i], [63: Point2i]) -> output:
Buffer_Point2i /*CPU Kernel*/
(0x70b5444020) BufferFrom([0: Point2f], [1: Point2f], [2: Point2f], [3:
Point2f], [4: Point2f], [5: Point2f], [6: Point2f], [7: Point2f], [8: Point2f], [9:
Point2f], [10: Point2f], [11: Point2f], [12: Point2f], [13: Point2f], [14:
Point2f], [15: Point2f], [16: Point2f], [17: Point2f], [18: Point2f], [19:
Point2f], [20: Point2f], [21: Point2f], [22: Point2f], [23: Point2f], [24:
Point2f], [25: Point2f], [26: Point2f], [27: Point2f], [28: Point2f], [29:
Point2f], [30: Point2f], [31: Point2f], [32: Point2f], [33: Point2f], [34:
Point2f], [35: Point2f], [36: Point2f], [37: Point2f], [38: Point2f], [39:
Point2f], [40: Point2f], [41: Point2f], [42: Point2f], [43: Point2f], [44:
Point2f], [45: Point2f], [46: Point2f], [47: Point2f], [48: Point2f], [49:
Point2f], [50: Point2f], [51: Point2f], [52: Point2f], [53: Point2f], [54:
Point2f], [55: Point2f], [56: Point2f], [57: Point2f], [58: Point2f], [59:
Point2f], [60: Point2f], [61: Point2f], [62: Point2f], [63: Point2f]) -> output:
Buffer_Point2f /*CPU Kernel*/
(0x70b5444100) BufferFrom([0: ARGB_8888], [1: ARGB_8888], [2: ARGB_8888], [3:
ARGB_8888], [4: ARGB_8888], [5: ARGB_8888], [6: ARGB_8888], [7: ARGB_8888], [8:
ARGB_8888], [9: ARGB_8888], [10: ARGB_8888], [11: ARGB_8888], [12: ARGB_8888], [13:
ARGB_8888], [14: ARGB_8888], [15: ARGB_8888], [16: ARGB_8888], [17: ARGB_8888],
[18: ARGB_8888], [19: ARGB_8888], [20: ARGB_8888], [21: ARGB_8888], [22:
ARGB_8888], [23: ARGB_8888], [24: ARGB_8888], [25: ARGB_8888], [26: ARGB_8888],
[27: ARGB_8888], [28: ARGB_8888], [29: ARGB_8888], [30: ARGB_8888], [31:
ARGB_8888], [32: ARGB_8888], [33: ARGB_8888], [34: ARGB_8888], [35: ARGB_8888],
[36: ARGB_8888], [37: ARGB_8888], [38: ARGB_8888], [39: ARGB_8888], [40:
ARGB_8888], [41: ARGB_8888], [42: ARGB_8888], [43: ARGB_8888], [44: ARGB_8888],
[45: ARGB_8888], [46: ARGB_8888], [47: ARGB_8888], [48: ARGB_8888], [49:
ARGB_8888], [50: ARGB_8888], [51: ARGB_8888], [52: ARGB_8888], [53: ARGB_8888],
[54: ARGB_8888], [55: ARGB_8888], [56: ARGB_8888], [57: ARGB_8888], [58:
ARGB_8888], [59: ARGB_8888], [60: ARGB_8888], [61: ARGB_8888], [62: ARGB_8888],
[63: ARGB_8888]) -> output: Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54441e0) BufferFrom([0: RGB_888], [1: RGB_888], [2: RGB_888], [3:
RGB_888], [4: RGB_888], [5: RGB_888], [6: RGB_888], [7: RGB_888], [8: RGB_888], [9:
RGB_888], [10: RGB_888], [11: RGB_888], [12: RGB_888], [13: RGB_888], [14:
RGB_888], [15: RGB_888], [16: RGB_888], [17: RGB_888], [18: RGB_888], [19:
RGB_888], [20: RGB_888], [21: RGB_888], [22: RGB_888], [23: RGB_888], [24:
RGB_888], [25: RGB_888], [26: RGB_888], [27: RGB_888], [28: RGB_888], [29:
RGB_888], [30: RGB_888], [31: RGB_888], [32: RGB_888], [33: RGB_888], [34:
RGB_888], [35: RGB_888], [36: RGB_888], [37: RGB_888], [38: RGB_888], [39:
RGB_888], [40: RGB_888], [41: RGB_888], [42: RGB_888], [43: RGB_888], [44:
RGB_888], [45: RGB_888], [46: RGB_888], [47: RGB_888], [48: RGB_888], [49:
RGB_888], [50: RGB_888], [51: RGB_888], [52: RGB_888], [53: RGB_888], [54:
RGB_888], [55: RGB_888], [56: RGB_888], [57: RGB_888], [58: RGB_888], [59:
RGB_888], [60: RGB_888], [61: RGB_888], [62: RGB_888], [63: RGB_888]) -> output:
Buffer_RGB_888 /*CPU Kernel*/
(0x70b54466a0) BufferFromImage(Image: Image_8) -> output: Buffer_8 /*CPU
Kernel*/
(0x70b5446780) BufferFromImage(Image: Image_ARGB_8888) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b542aa20) BufferToImage(buffer: Buffer_8, size: Point2i) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b542ab00) BufferToImage(buffer: Buffer_8, size: Point2i) -> output:
Image_8 /*CPU Kernel*/
(0x70b7b5b318) Buffer([value: Buffer_8]) -> value: Buffer_8 /*Value Kernel*/
(0x70b7b5b558) Buffer([value: Buffer_ARGB_8888]) -> value:
Buffer_ARGB_8888 /*Value Kernel*/
(0x70b7b5b198) Buffer([value: Buffer_Float]) -> value: Buffer_Float /*Value
Kernel*/
(0x70b7b5b258) Buffer([value: Buffer_Int]) -> value: Buffer_Int /*Value
Kernel*/
(0x70b7b5b3d8) Buffer([value: Buffer_Point2f]) -> value: Buffer_Point2f
/*Value Kernel*/
(0x70b7b5b498) Buffer([value: Buffer_Point2i]) -> value: Buffer_Point2i
/*Value Kernel*/
(0x70b7b5b618) Buffer([value: Buffer_RGB_888]) -> value: Buffer_RGB_888
/*Value Kernel*/
(0x70bbb4d4a0) Cast(input: Int) -> output: Float /*CPU Kernel*/
(0x70bbb4d580) Cast(input: Float) -> output: Int /*CPU Kernel*/
(0x70bbb4d660) Cast(input: Buffer_Int) -> output: Buffer_Float /*CPU Kernel*/
(0x70bbb4d740) Cast(input: Buffer_Float) -> output: Buffer_Int /*CPU Kernel*/
(0x70bbb4d820) Cast(input: Buffer_8) -> output: Buffer_Int /*CPU Kernel*/
(0x70bbb4d900) Cast(input: Buffer_Int) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb4d9e0) Cast(input: Buffer_Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70bbb4dac0) Cast(input: Buffer_8) -> output: Buffer_Float /*CPU Kernel*/
(0x70b542abe0) ChannelShift(input: Image_ARGB_8888, redShift: Point2f,
greenShift: Point2f, blueShift: Point2f) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541a760) ColorBalance(shadows: Buffer_Int, midtones: Buffer_Int,
highlights: Buffer_Int, preserve_luminosity: Int) -> red_lut: Buffer_8, green_lut:
Buffer_8, blue_lut: Buffer_8 /*CPU Kernel*/
(0x70b5447e40) ColoringCalc(image_mask: Image_8, image_lab:
Image_Alpha_LAB_8888) -> mean: Buffer_Float, std: Buffer_Float /*CPU Kernel*/
(0x70b5429440) Concatenate(buffer1: Buffer_8, buffer2: Buffer_8) -> output:
Buffer_8 /*CPU Kernel*/
(0x70b5429520) Concatenate(buffer1: Buffer_Int, buffer2: Buffer_Int) ->
output: Buffer_Int /*CPU Kernel*/
(0x70b5429600) Concatenate(buffer1: Buffer_Float, buffer2: Buffer_Float) ->
output: Buffer_Float /*CPU Kernel*/
(0x70b54296e0) Concatenate(buffer1: Buffer_ARGB_8888, buffer2:
Buffer_ARGB_8888) -> output: Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54297c0) Concatenate(buffer1: Buffer_Point2f, buffer2: Buffer_Point2f)
-> output: Buffer_Point2f /*CPU Kernel*/
(0x70bbb4df20) Convert(input: Buffer_8) -> output: Buffer_ARGB_8888 /*CPU
Kernel*/
(0x70bbb4e000) Convert(input: Buffer_ARGB_8888) -> output: Buffer_8 /*CPU
Kernel*/
(0x70bbb4e0e0) Convert(input: Image_8) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70bbb4e1c0) Convert(input: Image_ARGB_8888) -> output: Image_8 /*CPU
Kernel*/
(0x70bbb4e2a0) Convert(input: Image_ARGB_8888) -> output: Image_LAB_888 /*CPU
Kernel*/
(0x70bbb4e380) Convert(input: Image_ARGB_8888) -> output:
Image_Alpha_LAB_8888 /*CPU Kernel*/
(0x70bbb4e460) Convert(input: ARGB_8888) -> output: LAB_fff /*CPU Kernel*/
(0x70bbb4e540) Convert(input: LAB_fff) -> output: Buffer_Float /*CPU Kernel*/
(0x70b542a240) Convolution(source: Image_ARGB_8888, kernel: Buffer_Float) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54442c0) CoordGenerator(origin: Point2i, size: Point2i, source_size:
Point2i) -> coord: Buffer_Float /*CPU Kernel*/
(0x70b5428480) CoordinateConverter(source: Buffer_Float, mode: Int,
[source_size: Point2i], [flip_x: Int], [flip_y: Int]) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5428b80) Copy(input: Buffer_8) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5428c60) Copy(input: Buffer_Int) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5428d40) Copy(input: Buffer_Float) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5428e20) Copy(input: Image_ARGB_8888) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5428f00) Copy(input: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b5428fe0) Copy(input: Int) -> output: Int /*CPU Kernel*/
(0x70b54290c0) Copy(input: Float) -> output: Float /*CPU Kernel*/
(0x70b54291a0) Copy(input: Point2i) -> output: Point2i /*CPU Kernel*/
(0x70b5429280) Copy(input: Point2f) -> output: Point2f /*CPU Kernel*/
(0x70b5429360) Copy(image: Image_ARGB_8888) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b541a300) Curves([r: Buffer_Point2i], [g: Buffer_Point2i], [b:
Buffer_Point2i], [rgb: Buffer_Point2i]) -> red_lut: Buffer_Float, green_lut:
Buffer_Float, blue_lut: Buffer_Float, rgb_lut: Buffer_Float /*CPU Kernel*/
(0x70b54451a0) DCHECK(x: Int) -> /*CPU Kernel*/
(0x70b5445280) DCHECK(x: Float) -> /*CPU Kernel*/
(0x70b5445360) DCHECK_EQ(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b5445440) DCHECK_EQ(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b5445520) DCHECK_EQ(x: Point2i, y: Point2i) -> /*CPU Kernel*/
(0x70b5445600) DCHECK_EQ(x: Point2f, y: Point2f) -> /*CPU Kernel*/
(0x70b54456e0) DCHECK_EQ(x: Buffer_8, y: Buffer_8) -> /*CPU Kernel*/
(0x70b54457c0) DCHECK_EQ(x: Buffer_Int, y: Buffer_Int) -> /*CPU Kernel*/
(0x70b54458a0) DCHECK_EQ(x: Buffer_Float, y: Buffer_Float) -> /*CPU Kernel*/
(0x70b5445980) DCHECK_EQ(x: Buffer_Point2i, y: Buffer_Point2i) -> /*CPU
Kernel*/
(0x70b5445a60) DCHECK_EQ(x: Buffer_Point2f, y: Buffer_Point2f) -> /*CPU
Kernel*/
(0x70b5445b40) DCHECK_EQ(x: Buffer_ARGB_8888, y: Buffer_ARGB_8888) -> /*CPU
Kernel*/
(0x70b5445c20) DCHECK_EQ(x: Image_8, y: Image_8) -> /*CPU Kernel*/
(0x70b5445d00) DCHECK_EQ(x: Image_ARGB_8888, y: Image_ARGB_8888) -> /*CPU
Kernel*/
(0x70b5446160) DCHECK_GE(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b5446240) DCHECK_GE(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b5446320) DCHECK_GT(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b5446400) DCHECK_GT(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b5445de0) DCHECK_LE(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b5445ec0) DCHECK_LE(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b5445fa0) DCHECK_LT(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b5446080) DCHECK_LT(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b54464e0) DCHECK_NE(x: Int, y: Int) -> /*CPU Kernel*/
(0x70b54465c0) DCHECK_NE(x: Float, y: Float) -> /*CPU Kernel*/
(0x70b5447200) Enhance(input: Image_ARGB_8888) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b541a840) Exposure(exposure: Float, offset: Float, gamma: Float) -> lut:
Buffer_8 /*CPU Kernel*/
(0x70b5447900) FaceDetector(image: Image_ARGB_8888, [API: Int],
[faceCountLimit: Int]) -> output: Buffer_Float /*CPU Kernel*/
(0x70b54482a0) FaceExtendedLandmarks(hair_line: Buffer_Point2i, face_midline:
Buffer_Point2i, nose_midline: Buffer_Point2i, nose: Buffer_Point2i, contour:
Buffer_Point2i, left_eyebrow: Buffer_Point2i, right_eyebrow: Buffer_Point2i,
left_eye: Buffer_Point2i, right_eye: Buffer_Point2i, left_eye_radius: Int,
right_eye_radius: Int, left_eye_center: Point2i, right_eye_center: Point2i, mouth:
Buffer_Point2i) -> hair_line: Buffer_Point2i, face_midline: Buffer_Point2i,
nose_midline: Buffer_Point2i, nose: Buffer_Point2i, extended_nose: Buffer_Point2i,
contour: Buffer_Point2i, left_eyebrow: Buffer_Point2i, right_eyebrow:
Buffer_Point2i, left_eye: Buffer_Point2i, right_eye: Buffer_Point2i,
left_eye_radius: Int, right_eye_radius: Int, left_eye_center: Point2i,
right_eye_center: Point2i, mouth: Buffer_Point2i, lips: Buffer_Point2i, forhead:
Buffer_Point2i, chin: Buffer_Point2i /*CPU Kernel*/
(0x70b7a3e720) FaceLandmarkStabilizer(source: Buffer_Float, sigmas:
Buffer_Float) -> output: Buffer_Float /*CPU Kernel*/
(0x70b5448460) FaceMorphing(image_size: Point2i, [eyes_size_power: Int],
[eyes_rotate_power: Int], [eyes_move_power: Int], [eyes_vertical_move_power: Int],
[eyes_width_power: Int], [eyes_height_power: Int], [lips_size_power: Int],
[lips_height_power: Int], [lips_width_power: Int], [lips_vertical_move_power: Int],
[nose_narrow_power: Int], [nose_width_power: Int], [nose_lift_power: Int],
[nose_size_power: Int], [nose_tip_power: Int], [brow_size_power: Int],
[brow_lift_power: Int], [brow_swing_power: Int], [brow_move_power: Int],
[brow_rotate_power: Int], [face_width_power: Int], [face_jaw_power: Int],
[face_chin_power: Int], [face_forhead_power: Int], hair_line: Buffer_Point2i,
forhead: Buffer_Point2i, nose_midline: Buffer_Point2i, nose: Buffer_Point2i,
extended_nose: Buffer_Point2i, contour: Buffer_Point2i, left_eyebrow:
Buffer_Point2i, right_eyebrow: Buffer_Point2i, left_eye: Buffer_Point2i, right_eye:
Buffer_Point2i, left_eye_radius: Int, right_eye_radius: Int, left_eye_center:
Point2i, right_eye_center: Point2i, mouth: Buffer_Point2i, lips: Buffer_Point2i,
chin: Buffer_Point2i) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541aa00) Fade(top: Image_ARGB_8888, bottom: Image_ARGB_8888, [fade:
Int]) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541aae0) Fade(top: Image_8, bottom: Image_8, [fade: Int]) -> output:
Image_8 /*CPU Kernel*/
(0x70b7af8718) Scaliar([value: Float]) -> value: Float /*Value Kernel*/
(0x70b54474a0) FocalZoom(input: Image_ARGB_8888, hardness: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5429ec0) GaussNoise(image: Image_ARGB_8888, density: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b542a160) Gaussian2D(radius: Float, sigma: Float, [lowPass: Int]) ->
output: Buffer_Float /*CPU Kernel*/
(0x70b542e300) GaussianBlur(source: Image_ARGB_8888, kernel_size: Int) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54472e0) GlitchMode(mode: Int, shift: Point2f) -> redShift: Point2f,
greenShift: Point2f, blueShift: Point2f /*CPU Kernel*/
(0x70b541a920) GradientFill(colors: Buffer_ARGB_8888, points: Buffer_Float,
gradient_type: Int, angle: Float, scale: Float, offset_x: Float, offset_y: Float,
size: Point2i) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541abc0) GradientFillLiniar(colors: Buffer_ARGB_8888, points:
Buffer_Float, size: Point2i) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5418540) GradientMap(image: Image_ARGB_8888, colors: Buffer_ARGB_8888,
points: Buffer_Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5418380) GrayCPU(image: Image_ARGB_8888) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b5418460) Gray(image: Image_ARGB_8888) -> output: Image_8 /*CPU Kernel*/
(0x70b5418380) GrayCPU(image: Image_ARGB_8888) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b5446e80) HairColor(mode: Int) -> red_points: Buffer_Point2i,
green_points: Buffer_Point2i, blue_points: Buffer_Point2i /*CPU Kernel*/
(0x70b542a320) HighPass(source: Image_ARGB_8888, radius: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b542a5c0) HorizontalBoxBlur(source: Image_ARGB_8888, kernel_size: Int) -
> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b542e3e0) HorizontalGaussianBlur(source: Image_ARGB_8888, kernel_size:
Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5429fa0) HueCalculator(minHue1: Float, maxHue1: Float, minHue2: Float,
maxHue2: Float, minHue3: Float, maxHue3: Float, [selectedHue1: Float],
[selectedHue2: Float], [selectedHue3: Float]) -> resultMinHue1: Float,
resultMinHue2: Float, resultMinHue3: Float, resultMaxHue1: Float, resultMaxHue2:
Float, resultMaxHue3: Float /*CPU Kernel*/
(0x70b5428e20) Copy(input: Image_ARGB_8888) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5428f00) Copy(input: Image_8) -> output: Image_8 /*CPU Kernel*/
(0x70b5429360) Copy(image: Image_ARGB_8888) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b54c13d8) If(cond: Int, true: Int, false: Int) -> output: Int /*CPU
Kernel*/
(0x70b54c1498) If(cond: Int, true: Float, false: Float) -> output: Float
/*CPU Kernel*/
(0x70b54c1558) If(cond: Int, true: Buffer_Int, false: Buffer_Int) -> output:
Buffer_Int /*CPU Kernel*/
(0x70b54c1618) If(cond: Int, true: Buffer_Float, false: Buffer_Float) ->
output: Buffer_Float /*CPU Kernel*/
(0x70b54c16d8) If(cond: Int, true: Buffer_8, false: Buffer_8) -> output:
Buffer_8 /*CPU Kernel*/
(0x70b54c1798) If(cond: Int, true: Buffer_ARGB_8888, false: Buffer_ARGB_8888)
-> output: Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54c1858) If(cond: Int, true: Buffer_RGB_888, false: Buffer_RGB_888) ->
output: Buffer_RGB_888 /*CPU Kernel*/
(0x70b54c1918) If(cond: Int, true: Point2f, false: Point2f) -> output:
Point2f /*CPU Kernel*/
(0x70b54c19d8) If(cond: Int, true: Image_8, false: Image_8) -> output:
Image_8 /*CPU Kernel*/
(0x70b54c1a98) If(cond: Int, true: Image_ARGB_8888, false: Image_ARGB_8888) -
> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70bbb4c6a0) Image([value: Image_8]) -> value: Image_8 /*Value Kernel*/
(0x70bbb4c5c0) Image([value: Image_Float]) -> value: Image_Float /*Value
Kernel*/
(0x70bbb4c4e0) Image([value: Image_ARGB_8888]) -> value: Image_ARGB_8888
/*Value Kernel*/
(0x70bbb4cb00) Image([value: Image_RGB_888]) -> value: Image_RGB_888 /*Value
Kernel*/
(0x70bbb4ca20) Image([value: Image_LAB_888]) -> value: Image_LAB_888 /*Value
Kernel*/
(0x70bbb4cbe0) Image([value: Image_Alpha_LAB_8888]) -> value:
Image_Alpha_LAB_8888 /*Value Kernel*/
(0x70b542e5a0) ImageFromFile(path: String) -> output: Image_8 /*CPU Kernel*/
(0x70b542e760) ImageFromFile(path: String) -> output: Image_RGB_888 /*CPU
Kernel*/
(0x70b542e840) ImageFromFile(path: String) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b541a5a0) ImageTableLookUp(source: Image_ARGB_8888, [alpha: Buffer_8],
[red: Buffer_8], [green: Buffer_8], [blue: Buffer_8], [rgb: Buffer_8]) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b541a680) ImageTableLookUp(source: Image_8, table: Buffer_8) -> output:
Image_8 /*CPU Kernel*/
(0x70bbb4c6a0) Image([value: Image_8]) -> value: Image_8 /*Value Kernel*/
(0x70bbb4c4e0) Image([value: Image_ARGB_8888]) -> value: Image_ARGB_8888
/*Value Kernel*/
(0x70bbb4cbe0) Image([value: Image_Alpha_LAB_8888]) -> value:
Image_Alpha_LAB_8888 /*Value Kernel*/
(0x70bbb4c5c0) Image([value: Image_Float]) -> value: Image_Float /*Value
Kernel*/
(0x70bbb4ca20) Image([value: Image_LAB_888]) -> value: Image_LAB_888 /*Value
Kernel*/
(0x70bbb4cb00) Image([value: Image_RGB_888]) -> value: Image_RGB_888 /*Value
Kernel*/
(0x70b542acc0) InputSwitch(index: Int, input0: Buffer_8, input1: Buffer_8,
[input2: Buffer_8], [input3: Buffer_8], [input4: Buffer_8], [input5: Buffer_8]) ->
output: Buffer_8 /*CPU Kernel*/
(0x70b542ae80) InputSwitch(index: Int, input0: Buffer_Int, input1:
Buffer_Int, [input2: Buffer_Int], [input3: Buffer_Int], [input4: Buffer_Int],
[input5: Buffer_Int]) -> output: Buffer_Int /*CPU Kernel*/
(0x70b542af60) InputSwitch(index: Int, input0: Buffer_Float, input1:
Buffer_Float, [input2: Buffer_Float], [input3: Buffer_Float], [input4:
Buffer_Float], [input5: Buffer_Float]) -> output: Buffer_Float /*CPU Kernel*/
(0x70b542b040) InputSwitch(index: Int, input0: Buffer_Point2i, input1:
Buffer_Point2i, [input2: Buffer_Point2i], [input3: Buffer_Point2i], [input4:
Buffer_Point2i], [input5: Buffer_Point2i]) -> output: Buffer_Point2i /*CPU Kernel*/
(0x70b542b120) InputSwitch(index: Int, input0: Buffer_Point2f, input1:
Buffer_Point2f, [input2: Buffer_Point2f], [input3: Buffer_Point2f], [input4:
Buffer_Point2f], [input5: Buffer_Point2f]) -> output: Buffer_Point2f /*CPU Kernel*/
(0x70b542b200) InputSwitch(index: Int, input0: Buffer_RGB_888, input1:
Buffer_RGB_888, [input2: Buffer_RGB_888], [input3: Buffer_RGB_888], [input4:
Buffer_RGB_888], [input5: Buffer_RGB_888]) -> output: Buffer_RGB_888 /*CPU Kernel*/
(0x70b542b2e0) InputSwitch(index: Int, input0: Buffer_ARGB_8888, input1:
Buffer_ARGB_8888, [input2: Buffer_ARGB_8888], [input3: Buffer_ARGB_8888], [input4:
Buffer_ARGB_8888], [input5: Buffer_ARGB_8888]) -> output: Buffer_ARGB_8888 /*CPU
Kernel*/
(0x70b542b3c0) InputSwitch(index: Int, input0: Image_8, input1: Image_8,
[input2: Image_8], [input3: Image_8], [input4: Image_8], [input5: Image_8]) ->
output: Image_8 /*CPU Kernel*/
(0x70b542b4a0) InputSwitch(index: Int, input0: Image_RGB_888, input1:
Image_RGB_888, [input2: Image_RGB_888], [input3: Image_RGB_888], [input4:
Image_RGB_888], [input5: Image_RGB_888]) -> output: Image_RGB_888 /*CPU Kernel*/
(0x70b542b580) InputSwitch(index: Int, input0: Image_ARGB_8888, input1:
Image_ARGB_8888, [input2: Image_ARGB_8888], [input3: Image_ARGB_8888], [input4:
Image_ARGB_8888], [input5: Image_ARGB_8888]) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b542b660) InputSwitch(index: Int, input0: Int, input1: Int, [input2:
Int], [input3: Int], [input4: Int], [input5: Int]) -> output: Int /*CPU Kernel*/
(0x70b542b740) InputSwitch(index: Int, input0: Float, input1: Float, [input2:
Float], [input3: Float], [input4: Float], [input5: Float]) -> output: Float /*CPU
Kernel*/
(0x70b542b820) InputSwitch(index: Int, input0: Point2i, input1: Point2i,
[input2: Point2i], [input3: Point2i], [input4: Point2i], [input5: Point2i]) ->
output: Point2i /*CPU Kernel*/
(0x70b542b900) InputSwitch(index: Int, input0: Point2f, input1: Point2f,
[input2: Point2f], [input3: Point2f], [input4: Point2f], [input5: Point2f]) ->
output: Point2f /*CPU Kernel*/
(0x70b542b9e0) InputSwitch(index: Int, input0: RGB_888, input1: RGB_888,
[input2: RGB_888], [input3: RGB_888], [input4: RGB_888], [input5: RGB_888]) ->
output: RGB_888 /*CPU Kernel*/
(0x70b542bac0) InputSwitch(index: Int, input0: ARGB_8888, input1: ARGB_8888,
[input2: ARGB_8888], [input3: ARGB_8888], [input4: ARGB_8888], [input5: ARGB_8888])
-> output: ARGB_8888 /*CPU Kernel*/
(0x70b542bba0) InputSwitch(index: Int, input0: String, input1: String,
[input2: String], [input3: String], [input4: String], [input5: String]) -> output:
String /*CPU Kernel*/
(0x70b7af8798) Scaliar([value: Int]) -> value: Int /*Value Kernel*/
(0x70b542c0e0) Invert(input: Image_ARGB_8888) -> output: Image_ARGB_8888
/*CPU Kernel*/
(0x70b542c1c0) Invert(input: Int) -> output: Int /*CPU Kernel*/
(0x70b542c2a0) Invert(input: Float) -> output: Float /*CPU Kernel*/
(0x70b542ea00) KeyFrameAnimation(keyTimes: Buffer_Float, keyValues:
Buffer_Int, timingFunctions: Buffer_Int, time: Float) -> output: Buffer_Int /*CPU
Kernel*/
(0x70b542eae0) KeyFrameAnimation(keyTimes: Buffer_Float, keyValues:
Buffer_Float, timingFunctions: Buffer_Int, time: Float) -> output: Buffer_Float
/*CPU Kernel*/
(0x70b542ebc0) KeyFrameAnimation(keyTimes: Buffer_Float, keyValues: Buffer_8,
timingFunctions: Buffer_Int, time: Float) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5444f00) KeyValuesInterpolation(keyTimes: Buffer_Float, startKeyValue:
Buffer_Int, endKeyValue: Buffer_Int, timingFunction: Int) -> output: Buffer_Int
/*CPU Kernel*/
(0x70b5444fe0) KeyValuesInterpolation(keyTimes: Buffer_Float, startKeyValue:
Buffer_Float, endKeyValue: Buffer_Float, timingFunction: Int) -> output:
Buffer_Float /*CPU Kernel*/
(0x70b54450c0) KeyValuesInterpolation(keyTimes: Buffer_Float, startKeyValue:
Buffer_8, endKeyValue: Buffer_8, timingFunction: Int) -> output: Buffer_8 /*CPU
Kernel*/
(0x70b7af8a18) Scaliar([value: LAB_fff]) -> value: LAB_fff /*Value Kernel*/
(0x70b5428720) LUT3D(source: Image_ARGB_8888, lutBuffer: Image_ARGB_8888) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54479e0) LandmarkDetector(source: Image_ARGB_8888, rect: Buffer_Float,
[infoPath: String], [expPath: String], [manPath: String], [extPath: String],
[modelPath: String]) -> output: Buffer_Float /*CPU Kernel*/
(0x70bbb4ccc0) Log(value: Int) -> value: Int /*CPU Kernel*/
(0x70bbb4cda0) Log(value: Float) -> value: Float /*CPU Kernel*/
(0x70bbb4ce80) Log(value: Buffer_Int) -> value: Buffer_Int /*CPU Kernel*/
(0x70bbb4cf60) Log(value: Buffer_Float) -> value: Buffer_Float /*CPU Kernel*/
(0x70bbb4d040) Log(value: Buffer_8) -> value: Buffer_8 /*CPU Kernel*/
(0x70bbb4d120) Log(value: Buffer_ARGB_8888) -> value: Buffer_ARGB_8888 /*CPU
Kernel*/
(0x70bbb4d200) Log(value: Buffer_Point2f) -> value: Buffer_Point2f /*CPU
Kernel*/
(0x70bbb4d2e0) Log(value: Image_8) -> value: Image_8 /*CPU Kernel*/
(0x70bbb4d3c0) Log(value: Image_ARGB_8888) -> value: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5429c20) MakeOrthoProjectionMatrix(left: Float, right: Float, bottom:
Float, top: Float, [near: Float], [far: Float]) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5428800) MakeTransform3D(points: Buffer_Float, [sX: Float], [sY:
Float], [sZ: Float], [tX: Float], [tY: Float], [tZ: Float], [rX: Float], [rY:
Float], [rZ: Float], [center: Buffer_Float]) -> output: Buffer_Float /*CPU Kernel*/
(0x70b5444d40) MapToRange(buffer: Buffer_Int, fromRange: Point2i, toRange:
Point2i) -> output: Buffer_8 /*CPU Kernel*/
(0x70b5444e20) MapToRange(buffer: Buffer_Int, fromRange: Point2i, toRange:
Point2i) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5444480) Mask(source: Image_ARGB_8888, image: Image_ARGB_8888, mask:
Image_8) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5444560) Mask(source: Image_RGB_888, image: Image_RGB_888, mask:
Image_8) -> output: Image_RGB_888 /*CPU Kernel*/
(0x70b5448000) MaskClusterization(mask: Image_8, threshold: Int) ->
clusters_image: Image_ARGB_8888, object_clusters: Buffer_Int /*CPU Kernel*/
(0x70b54449c0) MinMax(x: Int, y: Int) -> minMax: Point2i, min: Int, max:
Int /*CPU Kernel*/
(0x70b5444aa0) MinMax(x: Float, y: Float) -> minMax: Point2f, min: Float,
max: Float /*CPU Kernel*/
(0x70b5444b80) MinMax(buffer: Buffer_Int) -> minMax: Point2i, min: Int, max:
Int /*CPU Kernel*/
(0x70b5444c60) MinMax(buffer: Buffer_Float) -> minMax: Point2f, min: Float,
max: Float /*CPU Kernel*/
(0x70b5447820) Mirror(image: Image_ARGB_8888, mode: Int, flipMode: Int,
offset: Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54473c0) MotionBlur(input: Image_ARGB_8888, distance: Int, angle: Int)
-> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541ae60) NoOp(value: Int) -> value: Int /*CPU Kernel*/
(0x70b541af40) NoOp(value: Float) -> value: Float /*CPU Kernel*/
(0x70b5428020) NoOp(value: Buffer_8) -> value: Buffer_8 /*CPU Kernel*/
(0x70b5428100) NoOp(value: Buffer_ARGB_8888) -> value: Buffer_ARGB_8888 /*CPU
Kernel*/
(0x70b54281e0) NoOp(value: Buffer_Point2f) -> value: Buffer_Point2f /*CPU
Kernel*/
(0x70b54282c0) NoOp(value: Image_8) -> value: Image_8 /*CPU Kernel*/
(0x70b54283a0) NoOp(value: Image_ARGB_8888) -> value: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5446860) Noise(image: Image_ARGB_8888, noise: Int, skip: Int) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5446da0) NoiseReduction(image: Image_ARGB_8888, fade: Int, details:
Int, denoising: Int, saturation: Int, contrast: Int, skip: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5447f20) ObjectSelection(image: Image_ARGB_8888, mask: Image_8,
clusters_image: Image_ARGB_8888, object_clusters: Buffer_Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5429c20) MakeOrthoProjectionMatrix(left: Float, right: Float, bottom:
Float, top: Float, [near: Float], [far: Float]) -> output: Buffer_Float /*CPU
Kernel*/
(0x70b5429b40) OrthoScaleFil(destSize: Point2i, inputSize: Point2i, angle:
Int) -> output: Point2f /*CPU Kernel*/
(0x70b5429a60) OrthoScaleFit(destSize: Point2i, inputSize: Point2i) -> left:
Float, right: Float, bottom: Float, top: Float /*CPU Kernel*/
(0x70b542e220) Overflow(value: Int, low: Int, high: Int) -> output: Int /*CPU
Kernel*/
(0x70b5418620) PSBlend(top: Image_ARGB_8888, bottom: Image_ARGB_8888,
[blend_mode: Int]) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5444720) Percent(percent: Int, number: Int) -> value: Int /*CPU
Kernel*/
(0x70b5444800) Percent(percent: Float, number: Float) -> value: Float /*CPU
Kernel*/
(0x70b54448e0) Percent(percent: Float, number: Int) -> value: Float /*CPU
Kernel*/
(0x70b542a080) PixelProvider(source: Image_ARGB_8888, x: Float, y: Float) ->
pixel: Int /*CPU Kernel*/
(0x70b5419340) Point([x: Int], [y: Int], [point: Point2i]) -> x: Int, y: Int,
point: Point2i /*CPU Kernel*/
(0x70b5419420) Point([x: Float], [y: Float], [point: Point2f]) -> x: Float,
y: Float, point: Point2f /*CPU Kernel*/
(0x70b7af8898) Scaliar([value: Point2f]) -> value: Point2f /*Value Kernel*/
(0x70b7af8818) Scaliar([value: Point2i]) -> value: Point2i /*Value Kernel*/
(0x70b5447040) PointRepeat(source: Image_ARGB_8888, left: Point2i, right:
Point2i, left_limit: Point2i, right_limit: Point2i, direction: Int) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b542a780) ProportionalScaleSize(size: Point2i, skip: Int, maxEdgeSize:
Int) -> outputSize: Point2i /*CPU Kernel*/
(0x70b7af8998) Scaliar([value: RGB_888]) -> value: RGB_888 /*Value Kernel*/
(0x70b5447580) RadialBlur(input: Image_ARGB_8888, blur: Float) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5447740) RandomDustRotationAspect(imageSize: Point2i) -> left: Float,
right: Float, top: Float, bottom: Float /*CPU Kernel*/
(0x70b542bf20) RandomNumberGenerator(low: Int, high: Int) -> output: Int
/*CPU Kernel*/
(0x70b5418d20) Reallocate(source: Buffer_8, length: Int) -> output:
Buffer_8 /*CPU Kernel*/
(0x70b5418e00) Reallocate(source: Buffer_Int, length: Int) -> output:
Buffer_Int /*CPU Kernel*/
(0x70b5418ee0) Reallocate(source: Buffer_Float, length: Int) -> output:
Buffer_Float /*CPU Kernel*/
(0x70b5418fc0) Reallocate(source: Buffer_ARGB_8888, length: Int) -> output:
Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b54190a0) Reallocate(source: Buffer_Point2f, length: Int) -> output:
Buffer_Point2f /*CPU Kernel*/
(0x70b5419180) Reallocate(source: Image_8, width: Int, height: Int) ->
output: Image_8 /*CPU Kernel*/
(0x70b5419260) Reallocate(source: Image_ARGB_8888, width: Int, height: Int) -
> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5446cc0) RedEye(image: Image_ARGB_8888, xBuffer: Buffer_Int, yBuffer:
Buffer_Int, radiusBuffer: Buffer_Int, skip: Int) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70bbb4dba0) Resize(input: Image_8, width: Int, height: Int) -> output:
Image_8 /*CPU Kernel*/
(0x70bbb4dc80) Resize(input: Image_ARGB_8888, width: Int, height: Int) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70bbb4dd60) Resize(input: Image_8, dimensions: Point2i) -> output: Image_8
/*CPU Kernel*/
(0x70bbb4de40) Resize(input: Image_ARGB_8888, dimensions: Point2i) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b542c000) RotateImage(input: Image_ARGB_8888, angle: Float) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b7af8718) Scaliar([value: Float]) -> value: Float /*Value Kernel*/
(0x70b7af8798) Scaliar([value: Int]) -> value: Int /*Value Kernel*/
(0x70b7af8818) Scaliar([value: Point2i]) -> value: Point2i /*Value Kernel*/
(0x70b7af8898) Scaliar([value: Point2f]) -> value: Point2f /*Value Kernel*/
(0x70b7af8918) Scaliar([value: ARGB_8888]) -> value: ARGB_8888 /*Value
Kernel*/
(0x70b7af8998) Scaliar([value: RGB_888]) -> value: RGB_888 /*Value Kernel*/
(0x70b7af8a18) Scaliar([value: LAB_fff]) -> value: LAB_fff /*Value Kernel*/
(0x70b7af8718) Scaliar([value: Float]) -> value: Float /*Value Kernel*/
(0x70b7af8798) Scaliar([value: Int]) -> value: Int /*Value Kernel*/
(0x70b7af8818) Scaliar([value: Point2i]) -> value: Point2i /*Value Kernel*/
(0x70b7af8898) Scaliar([value: Point2f]) -> value: Point2f /*Value Kernel*/
(0x70b7af8918) Scaliar([value: ARGB_8888]) -> value: ARGB_8888 /*Value
Kernel*/
(0x70b7af8998) Scaliar([value: RGB_888]) -> value: RGB_888 /*Value Kernel*/
(0x70b7af8a18) Scaliar([value: LAB_fff]) -> value: LAB_fff /*Value Kernel*/
(0x70b5419500) SelectiveColor(source: Image_ARGB_8888, colors: Buffer_Int,
cyan: Buffer_Int, magenta: Buffer_Int, yellow: Buffer_Int, black: Buffer_Int,
relative: Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54195e0) ShapeOf(input: Int) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b54196c0) ShapeOf(input: Float) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b54197a0) ShapeOf(input: Point2i) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419880) ShapeOf(input: Point2f) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419960) ShapeOf(input: ARGB_8888) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419a40) ShapeOf(input: Buffer_Int) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419b20) ShapeOf(input: Buffer_Float) -> int: Int, size: Point2i,
shape: Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419c00) ShapeOf(input: Buffer_Point2i) -> int: Int, size: Point2i,
shape: Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419ce0) ShapeOf(input: Buffer_Point2f) -> int: Int, size: Point2i,
shape: Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419dc0) ShapeOf(input: Buffer_ARGB_8888) -> int: Int, size: Point2i,
shape: Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419ea0) ShapeOf(input: Buffer_8) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5419f80) ShapeOf(input: Image_8) -> int: Int, size: Point2i, shape:
Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b541a060) ShapeOf(input: Image_ARGB_8888) -> int: Int, size: Point2i,
shape: Buffer_Int, x: Int, y: Int /*CPU Kernel*/
(0x70b5446f60) Sharpen(image: Image_ARGB_8888, fade: Int, bias: Int,
scaleFactor: Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b542bc80) Sign(input: Float) -> output: Int /*CPU Kernel*/
(0x70b542bd60) Sign(input: Int) -> output: Int /*CPU Kernel*/
(0x70b54480e0) SimilarRingFinder(input: Image_ARGB_8888, center: Point2f,
radius: Float) -> center: Point2f, radius: Float /*CPU Kernel*/
(0x70b5447ac0) SkinSmoothing(source: Image_ARGB_8888, [amount: Int], rects:
Buffer_Float, landmarks: Buffer_Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5418700) Slice(source: Buffer_8, offset: Int, length: Int) -> output:
Buffer_8 /*CPU Kernel*/
(0x70b54187e0) Slice(source: Buffer_Int, offset: Int, length: Int) -> output:
Buffer_Int /*CPU Kernel*/
(0x70b54188c0) Slice(source: Buffer_Float, offset: Int, length: Int) ->
output: Buffer_Float /*CPU Kernel*/
(0x70b54189a0) Slice(source: Buffer_ARGB_8888, offset: Int, length: Int) ->
output: Buffer_ARGB_8888 /*CPU Kernel*/
(0x70b5418a80) Slice(source: Buffer_Point2f, offset: Int, length: Int) ->
output: Buffer_Point2f /*CPU Kernel*/
(0x70b5418b60) Slice(source: Image_8, x: Int, y: Int, width: Int, height:
Int) -> output: Image_8 /*CPU Kernel*/
(0x70b5418c40) Slice(source: Image_ARGB_8888, x: Int, y: Int, width: Int,
height: Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5446be0) SmartBlur(image: Image_ARGB_8888, max_blur: Int, amount: Int,
fade: Int, skip: Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54481c0) SmoothClone(input: Image_ARGB_8888, oldCenter: Point2f,
newCenter: Point2f, radius: Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b542a400) SmoothThreshold(source: Image_ARGB_8888, dest:
Image_ARGB_8888, threshold: Float) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5447660) SoftenBlur(input: Image_ARGB_8888, blur: Int, fade: Int) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b541a4c0) SolidColor(color: ARGB_8888, size: Point2i) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b5422ff8) String([value: String]) -> value: String /*Value Kernel*/
(0x70b5446b00) SunlessTan(image: Image_ARGB_8888, mode: Int, fade: Int, skip:
Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b54c1018) Switch(value: Int, [case0: Int], [case1: Int], [case2: Int],
[case3: Int], [case4: Int], [case5: Int], [case6: Int], [case7: Int], [case8: Int],
[case9: Int], [case10: Int], [case11: Int], [case12: Int], [case13: Int], [case14:
Int]) -> output: Int /*CPU Kernel*/
(0x70b54c1078) Switch(value: Int, [case0: Float], [case1: Float], [case2:
Float], [case3: Float], [case4: Float], [case5: Float], [case6: Float], [case7:
Float], [case8: Float], [case9: Float], [case10: Float], [case11: Float], [case12:
Float], [case13: Float], [case14: Float]) -> output: Float /*CPU Kernel*/
(0x70b54c10d8) Switch(value: Int, [case0: Buffer_Int], [case1: Buffer_Int],
[case2: Buffer_Int], [case3: Buffer_Int], [case4: Buffer_Int], [case5: Buffer_Int],
[case6: Buffer_Int], [case7: Buffer_Int], [case8: Buffer_Int], [case9: Buffer_Int],
[case10: Buffer_Int], [case11: Buffer_Int], [case12: Buffer_Int], [case13:
Buffer_Int], [case14: Buffer_Int]) -> output: Buffer_Int /*CPU Kernel*/
(0x70b54c1138) Switch(value: Int, [case0: Buffer_Float], [case1:
Buffer_Float], [case2: Buffer_Float], [case3: Buffer_Float], [case4: Buffer_Float],
[case5: Buffer_Float], [case6: Buffer_Float], [case7: Buffer_Float], [case8:
Buffer_Float], [case9: Buffer_Float], [case10: Buffer_Float], [case11:
Buffer_Float], [case12: Buffer_Float], [case13: Buffer_Float], [case14:
Buffer_Float]) -> output: Buffer_Float /*CPU Kernel*/
(0x70b54c1198) Switch(value: Int, [case0: Buffer_8], [case1: Buffer_8],
[case2: Buffer_8], [case3: Buffer_8], [case4: Buffer_8], [case5: Buffer_8], [case6:
Buffer_8], [case7: Buffer_8], [case8: Buffer_8], [case9: Buffer_8], [case10:
Buffer_8], [case11: Buffer_8], [case12: Buffer_8], [case13: Buffer_8], [case14:
Buffer_8]) -> output: Buffer_8 /*CPU Kernel*/
(0x70b54c11f8) Switch(value: Int, [case0: Buffer_ARGB_8888], [case1:
Buffer_ARGB_8888], [case2: Buffer_ARGB_8888], [case3: Buffer_ARGB_8888], [case4:
Buffer_ARGB_8888], [case5: Buffer_ARGB_8888], [case6: Buffer_ARGB_8888], [case7:
Buffer_ARGB_8888], [case8: Buffer_ARGB_8888], [case9: Buffer_ARGB_8888], [case10:
Buffer_ARGB_8888], [case11: Buffer_ARGB_8888], [case12: Buffer_ARGB_8888], [case13:
Buffer_ARGB_8888], [case14: Buffer_ARGB_8888]) -> output: Buffer_ARGB_8888 /*CPU
Kernel*/
(0x70b54c1258) Switch(value: Int, [case0: Buffer_RGB_888], [case1:
Buffer_RGB_888], [case2: Buffer_RGB_888], [case3: Buffer_RGB_888], [case4:
Buffer_RGB_888], [case5: Buffer_RGB_888], [case6: Buffer_RGB_888], [case7:
Buffer_RGB_888], [case8: Buffer_RGB_888], [case9: Buffer_RGB_888], [case10:
Buffer_RGB_888], [case11: Buffer_RGB_888], [case12: Buffer_RGB_888], [case13:
Buffer_RGB_888], [case14: Buffer_RGB_888]) -> output: Buffer_RGB_888 /*CPU Kernel*/
(0x70b54c12b8) Switch(value: Int, [case0: Point2f], [case1: Point2f], [case2:
Point2f], [case3: Point2f], [case4: Point2f], [case5: Point2f], [case6: Point2f],
[case7: Point2f], [case8: Point2f], [case9: Point2f], [case10: Point2f], [case11:
Point2f], [case12: Point2f], [case13: Point2f], [case14: Point2f]) -> output:
Point2f /*CPU Kernel*/
(0x70b54c1318) Switch(value: Int, [case0: Image_8], [case1: Image_8], [case2:
Image_8], [case3: Image_8], [case4: Image_8], [case5: Image_8], [case6: Image_8],
[case7: Image_8], [case8: Image_8], [case9: Image_8], [case10: Image_8], [case11:
Image_8], [case12: Image_8], [case13: Image_8], [case14: Image_8]) -> output:
Image_8 /*CPU Kernel*/
(0x70b54c1378) Switch(value: Int, [case0: Image_ARGB_8888], [case1:
Image_ARGB_8888], [case2: Image_ARGB_8888], [case3: Image_ARGB_8888], [case4:
Image_ARGB_8888], [case5: Image_ARGB_8888], [case6: Image_ARGB_8888], [case7:
Image_ARGB_8888], [case8: Image_ARGB_8888], [case9: Image_ARGB_8888], [case10:
Image_ARGB_8888], [case11: Image_ARGB_8888], [case12: Image_ARGB_8888], [case13:
Image_ARGB_8888], [case14: Image_ARGB_8888]) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b5447c80) TeethMask(source: Image_ARGB_8888, rects: Buffer_Float,
landmarks: Buffer_Float) -> output: Image_8 /*CPU Kernel*/
(0x70b541a140) TempMesh(input: Image_ARGB_8888, image: Image_ARGB_8888,
[verticies: Buffer_Float], [indicies: Buffer_Int], [blend_mode: Int], [draw_mode:
Int], [model_matrix: Buffer_Float], [projection_matrix: Buffer_Float], [alpha:
Float], [enabled: Int], [disable_culling: Int]) -> output: Image_ARGB_8888 /*CPU
Kernel*/
(0x70b54443a0) TimeRangeContainsTime(start: Float, duration: Float, time:
Float) -> output: Int /*CPU Kernel*/
(0x70b7af8718) Scaliar([value: Float]) -> value: Float /*Value Kernel*/
(0x70b7af8798) Scaliar([value: Int]) -> value: Int /*Value Kernel*/
(0x70b7af8818) Scaliar([value: Point2i]) -> value: Point2i /*Value Kernel*/
(0x70b7af8898) Scaliar([value: Point2f]) -> value: Point2f /*Value Kernel*/
(0x70b7af8918) Scaliar([value: ARGB_8888]) -> value: ARGB_8888 /*Value
Kernel*/
(0x70b7af8998) Scaliar([value: RGB_888]) -> value: RGB_888 /*Value Kernel*/
(0x70b7af8a18) Scaliar([value: LAB_fff]) -> value: LAB_fff /*Value Kernel*/
(0x70b7b5b198) Buffer([value: Buffer_Float]) -> value: Buffer_Float /*Value
Kernel*/
(0x70b7b5b258) Buffer([value: Buffer_Int]) -> value: Buffer_Int /*Value
Kernel*/
(0x70b7b5b318) Buffer([value: Buffer_8]) -> value: Buffer_8 /*Value Kernel*/
(0x70b7b5b3d8) Buffer([value: Buffer_Point2f]) -> value: Buffer_Point2f
/*Value Kernel*/
(0x70b7b5b498) Buffer([value: Buffer_Point2i]) -> value: Buffer_Point2i
/*Value Kernel*/
(0x70b7b5b558) Buffer([value: Buffer_ARGB_8888]) -> value:
Buffer_ARGB_8888 /*Value Kernel*/
(0x70b7b5b618) Buffer([value: Buffer_RGB_888]) -> value: Buffer_RGB_888
/*Value Kernel*/
(0x70bbb4c6a0) Image([value: Image_8]) -> value: Image_8 /*Value Kernel*/
(0x70bbb4c5c0) Image([value: Image_Float]) -> value: Image_Float /*Value
Kernel*/
(0x70bbb4c4e0) Image([value: Image_ARGB_8888]) -> value: Image_ARGB_8888
/*Value Kernel*/
(0x70bbb4cb00) Image([value: Image_RGB_888]) -> value: Image_RGB_888 /*Value
Kernel*/
(0x70bbb4ca20) Image([value: Image_LAB_888]) -> value: Image_LAB_888 /*Value
Kernel*/
(0x70bbb4cbe0) Image([value: Image_Alpha_LAB_8888]) -> value:
Image_Alpha_LAB_8888 /*Value Kernel*/
(0x70b5422ff8) String([value: String]) -> value: String /*Value Kernel*/
(0x70b542a6a0) VerticalBoxBlur(source: Image_ARGB_8888, kernel_size: Int) ->
output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b542e4c0) VerticalGaussianBlur(source: Image_ARGB_8888, kernel_size:
Int) -> output: Image_ARGB_8888 /*CPU Kernel*/
(0x70b5444640) WaveGenerator(amplitude: Float, length: Float, [phase: Float],
waveType: Int, generationRange: Point2i) -> output: Buffer_Int /*CPU Kernel*/
(0x70b5447ba0) Whitening(source: Image_ARGB_8888, [amount: Int]) -> output:
Image_ARGB_8888 /*CPU Kernel*/
(0x70b54289c0) makeTransformMatrixKernel([sX: Float], [sY: Float], [sZ:
Float], [tX: Float], [tY: Float], [tZ: Float], [rX: Float], [rY: Float], [rZ:
Float]) -> output: Buffer_Float /*CPU Kernel*/
(0x70b5428aa0) makeVertexesMatrixKernel(imageSize: Point2i, textureSize:
Point2i) -> output: Buffer_Float /*CPU Kernel*/

GLKernels:
(0x70bbb1ec20) ARGBtoNative(input: Image_ARGB_8888, [input_coord:
Buffer_Float], [input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b556f620) Adjust(image: Image_ARGB_8888, temperature_sign: Point2f,
temperature_amount: Point2f, saturation: Float, hue: Float, [image_coord:
Buffer_Float], [image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b545c220) BinaryMask(source: Image_ARGB_8888, mask: Image_ARGB_8888,
[source_coord: Buffer_Float], [source_interpolationMode: Int], [mask_coord:
Buffer_Float], [mask_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b7bf7c20) Blend(top: Image_ARGB_8888, bottom: Image_ARGB_8888, [red:
Int], [green: Int], [blue: Int], [blend_mode: Int], [top_coord: Buffer_Float],
[top_interpolationMode: Int], [bottom_coord: Buffer_Float],
[bottom_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b556f420) BrightConSatHue(image: Image_ARGB_8888, brightness: Float,
contrast: Float, saturation: Float, hue: Float, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7a4e420) CameraContours(image: Image_ARGB_8888, fade: Float, contrast:
Float, brightness: Float, lines: Float, scaleFactor: Float, [image_coord:
Buffer_Float], [image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b7af4820) CameraHolga2(image: Image_ARGB_8888, fade: Float, left: Float,
right: Float, [image_coord: Buffer_Float], [image_interpolationMode: Int]) ->
output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7af4420) CameraHue(image: Image_ARGB_8888, hue: Float, deltaSaturation:
Float, [image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b7af4620) CameraLightCross(image: Image_ARGB_8888, fade: Float,
contrast: Float, brightness: Float, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7a4e620) CameraLomo(image: Image_ARGB_8888, vignette: Float, contrast:
Float, amount: Float, [mode: Int], [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7a4e020) CameraMirrors(image: Image_ARGB_8888, [mode: Int],
[image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b7a4e220) CameraSwirl(image: Image_ARGB_8888, radiusPercent: Float,
angle: Float, textureMinS: Float, textureMinT: Float, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54bfc20) ChannelShift(input: Image_ARGB_8888, redShift: Point2f,
greenShift: Point2f, blueShift: Point2f, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7af4a20) ColorSplash(image: Image_ARGB_8888, minHue1: Float, maxHue1:
Float, minHue2: Float, maxHue2: Float, minHue3: Float, maxHue3: Float, mode: Int,
[image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b556fc20) Coloring(image_lab: Image_Alpha_LAB_8888, src_mean:
Buffer_Float, src_std: Buffer_Float, dst_mean: Buffer_Float, dst_std: Buffer_Float,
[fade: Int], [image_lab_coord: Buffer_Float], [image_lab_interpolationMode: Int]) -
> output: Image_Alpha_LAB_8888 /*GL Kernel*/
(0x70b556fe20) ColoringFade(top: Image_ARGB_8888, bottom: Image_ARGB_8888,
mask: Image_8, [top_coord: Buffer_Float], [top_interpolationMode: Int],
[bottom_coord: Buffer_Float], [bottom_interpolationMode: Int], [mask_coord:
Buffer_Float], [mask_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70bbb1ea20) Convert(input: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_Alpha_LAB_8888 /*GL Kernel*/
(0x70b7bf7e20) Convert(input: Image_Alpha_LAB_8888, [input_coord:
Buffer_Float], [input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b7af4e20) Copy(image: Image_ARGB_8888, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70bbb8c020) Copy(input: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7a33e20) Display(source: Image_ARGB_8888, [source_coord: Buffer_Float],
[source_interpolationMode: Int]) -> /*GL Kernel*/
(0x70bbb1ee20) Fade(top: Image_ARGB_8888, bottom: Image_ARGB_8888, [fade:
Int], [top_coord: Buffer_Float], [top_interpolationMode: Int], [bottom_coord:
Buffer_Float], [bottom_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b545ca20) Grain(source: Image_ARGB_8888, noise: Image_ARGB_8888,
[source_coord: Buffer_Float], [source_interpolationMode: Int], [noise_coord:
Buffer_Float], [noise_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70bbb1e420) Gray(image: Image_ARGB_8888, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b545c420) GuidedUpscale(input: Image_ARGB_8888, lowResInput:
Image_ARGB_8888, lowResOutput: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [lowResInput_coord: Buffer_Float],
[lowResInput_interpolationMode: Int], [lowResOutput_coord: Buffer_Float],
[lowResOutput_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54bf820) HSL(source: Image_ARGB_8888, hue: Float, saturation: Float,
lightness: Float, [source_coord: Buffer_Float], [source_interpolationMode: Int]) ->
output: Image_ARGB_8888 /*GL Kernel*/
(0x70b5436620) HighPassDiff(top: Image_ARGB_8888, bottom: Image_ARGB_8888,
[top_coord: Buffer_Float], [top_interpolationMode: Int], [bottom_coord:
Buffer_Float], [bottom_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b556f020) Hightlight(image: Image_ARGB_8888, amount: Float, _sign:
Float, [image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b5436a20) HorizontalBoxBlur(source: Image_ARGB_8888, kernel_size: Int,
[source_coord: Buffer_Float], [source_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5020) HorizontalGaussianBlur(source: Image_ARGB_8888, kernel_size:
Int, [source_coord: Buffer_Float], [source_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b545c620) HorizontalReflect(input: Image_ARGB_8888, [input_coord:
Buffer_Float], [input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b5436e20) HorizontalSurfaceBlur(source: Image_ARGB_8888, lab:
Image_Alpha_LAB_8888, kernel_size: Int, threshold: Float, [source_coord:
Buffer_Float], [source_interpolationMode: Int], [lab_coord: Buffer_Float],
[lab_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7af4e20) Copy(image: Image_ARGB_8888, [image_coord: Buffer_Float],
[image_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70bbb8c020) Copy(input: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5620) ImageRowColumnShift(input: Image_ARGB_8888, rowShifts:
Image_8, rowShiftsActualRange: Point2i, columnShifts: Image_8,
columnShiftsActualRange: Point2i, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [rowShifts_coord: Buffer_Float],
[rowShifts_interpolationMode: Int], [columnShifts_coord: Buffer_Float],
[columnShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5820) ImageRowColumnShift(input: Image_ARGB_8888, rowShifts:
Image_8, rowShiftsActualRange: Point2i, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [rowShifts_coord: Buffer_Float],
[rowShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5a20) ImageRowColumnShift(input: Image_ARGB_8888, columnShifts:
Image_8, columnShiftsActualRange: Point2i, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [columnShifts_coord: Buffer_Float],
[columnShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5c20) ImageRowColumnShift(input: Image_ARGB_8888, rowShifts:
Image_8, rowShiftsActualRange: Point2f, columnShifts: Image_8,
columnShiftsActualRange: Point2f, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [rowShifts_coord: Buffer_Float],
[rowShifts_interpolationMode: Int], [columnShifts_coord: Buffer_Float],
[columnShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5e20) ImageRowColumnShift(input: Image_ARGB_8888, rowShifts:
Image_8, rowShiftsActualRange: Point2f, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [rowShifts_coord: Buffer_Float],
[rowShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b545c020) ImageRowColumnShift(input: Image_ARGB_8888, columnShifts:
Image_8, columnShiftsActualRange: Point2f, [input_coord: Buffer_Float],
[input_interpolationMode: Int], [columnShifts_coord: Buffer_Float],
[columnShifts_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b54bfe20) Invert(input: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b5436820) LUT1D(source: Image_ARGB_8888, alpha: Image_8, red: Image_8,
green: Image_8, blue: Image_8, rgb: Image_8, [source_coord: Buffer_Float],
[source_interpolationMode: Int], [alpha_coord: Buffer_Float],
[alpha_interpolationMode: Int], [red_coord: Buffer_Float], [red_interpolationMode:
Int], [green_coord: Buffer_Float], [green_interpolationMode: Int], [blue_coord:
Buffer_Float], [blue_interpolationMode: Int], [rgb_coord: Buffer_Float],
[rgb_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b7af4c20) LUT3D(source: Image_ARGB_8888, lutBuffer: Image_ARGB_8888,
[source_coord: Buffer_Float], [source_interpolationMode: Int], [lutBuffer_coord:
Buffer_Float], [lutBuffer_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b54c5420) Mask(source: Image_ARGB_8888, image: Image_ARGB_8888, mask:
Image_8, [source_coord: Buffer_Float], [source_interpolationMode: Int],
[image_coord: Buffer_Float], [image_interpolationMode: Int], [mask_coord:
Buffer_Float], [mask_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70bbb1e620) Mesh(image: Image_ARGB_8888, [verticies: Buffer_Float],
[indicies: Buffer_Int], [blend_mode: Int], [draw_mode: Int], [model_matrix:
Buffer_Float], [projection_matrix: Buffer_Float], [alpha: Float], [enabled: Int],
[disable_culling: Int], [image_coord: Buffer_Float], [image_interpolationMode:
Int], input: Image_ARGB_8888) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b556fa20) Mirror(image: Image_ARGB_8888, mode: Int, flipMode: Int,
offset: Float, [image_coord: Buffer_Float], [image_interpolationMode: Int]) ->
output: Image_ARGB_8888 /*GL Kernel*/
(0x70b5580020) Morphing(input: Image_ARGB_8888, coordsImage: Image_ARGB_8888,
[input_coord: Buffer_Float], [input_interpolationMode: Int], [coordsImage_coord:
Buffer_Float], [coordsImage_interpolationMode: Int]) -> output: Image_ARGB_8888
/*GL Kernel*/
(0x70b7a33c20) PostCamera(source: Image_ARGB_8888, flip_horizontal: Int,
flip_vertical: Int, [source_coord: Buffer_Float], [source_interpolationMode: Int])
-> output: Image_ARGB_8888 /*GL Kernel*/
(0x70bbb1e220) Resize(input: Image_ARGB_8888, dimensions: Point2i,
[input_coord: Buffer_Float], [input_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b556f220) Shadow(image: Image_ARGB_8888, amount: Float, _sign: Float,
[image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b54bfa20) Sobel(input: Image_ARGB_8888, [input_coord: Buffer_Float],
[input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70bbb1e820) SolidColor(color: ARGB_8888, size: Point2i) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b54bf220) Stream(input: Image_ARGB_8888, [size: Point2i], [input_coord:
Buffer_Float], [input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b54bf420) Target(source: Image_ARGB_8888, [image_size: Point2i], size:
Point2i, [color: ARGB_8888], [source_coord: Buffer_Float],
[source_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70bbb1e620) Mesh(image: Image_ARGB_8888, [verticies: Buffer_Float],
[indicies: Buffer_Int], [blend_mode: Int], [draw_mode: Int], [model_matrix:
Buffer_Float], [projection_matrix: Buffer_Float], [alpha: Float], [enabled: Int],
[disable_culling: Int], [image_coord: Buffer_Float], [image_interpolationMode:
Int], input: Image_ARGB_8888) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b545cc20) Temperature(image: Image_ARGB_8888, amount: Point2f, _sign:
Point2f, [image_coord: Buffer_Float], [image_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b54bf620) TransformationTarget(source: Image_ARGB_8888, [color:
ARGB_8888], [size: Point2i], [model: Buffer_Float], [projection: Buffer_Float],
[vertices: Buffer_Float], [indices: Buffer_Int], [source_coord: Buffer_Float],
[source_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b5436c20) VerticalBoxBlur(source: Image_ARGB_8888, kernel_size: Int,
[source_coord: Buffer_Float], [source_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b54c5220) VerticalGaussianBlur(source: Image_ARGB_8888, kernel_size:
Int, [source_coord: Buffer_Float], [source_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/
(0x70b545c820) VerticalReflect(input: Image_ARGB_8888, [input_coord:
Buffer_Float], [input_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL
Kernel*/
(0x70b54bf020) VerticalSurfaceBlur(source: Image_ARGB_8888, lab:
Image_Alpha_LAB_8888, kernel_size: Int, threshold: Float, [source_coord:
Buffer_Float], [source_interpolationMode: Int], [lab_coord: Buffer_Float],
[lab_interpolationMode: Int]) -> output: Image_ARGB_8888 /*GL Kernel*/
(0x70b556f820) Vignette(input: Image_ARGB_8888, gradient: Image_8, radius:
Float, color: ARGB_8888, [input_coord: Buffer_Float], [input_interpolationMode:
Int], [gradient_coord: Buffer_Float], [gradient_interpolationMode: Int]) -> output:
Image_ARGB_8888 /*GL Kernel*/

ValueKernels:
(0x70b7b5e320) Camera() -> value: Image_ARGB_8888 /*GL Value Kernel*/
(0x70b7b8bf20) Image([value: Image_8]) -> value: Image_8 /*GL Value Kernel*/
Aliases {Image_8, Value}
(0x70b7b5e020) Image([value: Image_ARGB_8888]) -> value: Image_ARGB_8888 /*GL
Value Kernel*/ Aliases {Image_ARGB_8888, Value}
(0x70b7b5e120) Image([value: Image_Alpha_LAB_8888]) -> value:
Image_Alpha_LAB_8888 /*GL Value Kernel*/ Aliases {Image_Alpha_LAB_8888, Value}

RXImportGraph.cpp:383 >>>Loading json


RXImportGraph.cpp:390 >>>Generating nested elements
RXImportGraph.cpp:402 >>>>>>offsetPercent->y
RXImportGraph.cpp:402 >>>>>>offsetValue->x
RXImportGraph.cpp:407 >>>Applying replacements
RXImportGraph.cpp:435 >>>Creating tree
RXImportGraph.cpp:440 >>>Filtering fetch nodes
RXImportGraph.cpp:383 >>>Loading json
RXImportGraph.cpp:390 >>>Generating nested elements
RXImportGraph.cpp:402 >>>>>>offsetPercent->y
RXImportGraph.cpp:402 >>>>>>offsetValue->x
RXImportGraph.cpp:407 >>>Applying replacements
RXImportGraph.cpp:435 >>>Creating tree
RXImportGraph.cpp:440 >>>Filtering fetch nodes
interrupt_op_jni.cpp:21 Interruption Native function "initInterruptFlags" is
called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_hdr.cpp:164 Hdr4buf - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_sharpen_dodger.cpp:195 sharpendodger4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_film.cpp:102 film4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_seafoam_light_cross.cpp:516 seafoamlightcrss4buf
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_7.cpp:111 effect74buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_blackandwhite.cpp:151 BlackAndWhite - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_13.cpp:99 effect134buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_14.cpp:104 effect144buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
effect_film.cpp:102 film4buf - enter
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_cinerama.cpp:146 cinerama4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_vintage_ivory.cpp:319 vintageivory4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_yestercolor.cpp:160 yestercolor4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_tranquil.cpp:61 tranquil4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_4.cpp:262 effect44buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_12.cpp:183 effect124buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_24.cpp:519 effect244buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_40.cpp:360 effect404buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_vintage.cpp:96 vintage4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_warming_amber.cpp:476 warmingamber4bud - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
effect_convolution.cpp:64 convolution4buf - enter
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_hdr.cpp:164 Hdr4buf - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_hdr.cpp:164 Hdr4buf - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
effect_saturation.cpp:79 saturate4buf - Enter
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_vignette.cpp:312 vignette4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_lomo.cpp:135 lomo4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_dusk.cpp:132 dusk4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_blackandwhite.cpp:151 BlackAndWhite - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
effect_crossprocessing.cpp:96 Crossprocessing4buf - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNomber->high
RGraph.cpp:641 Generating value kernel with name randomNomber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_blackandwhite.cpp:151 BlackAndWhite - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_vintage.cpp:96 vintage4buf - enter
RGraph.cpp:743 Synchronizing graph types
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
effect_sepia.cpp:66 sepia4buf - enter
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_crossprocess.cpp:214 crossprocess4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_crossprocessing.cpp:96 Crossprocessing4buf - Enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNumber->high
RGraph.cpp:641 Generating value kernel with name randomNumber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:641 Generating value kernel with name switch->input0
RGraph.cpp:641 Generating value kernel with name switch->input1
RGraph.cpp:641 Generating value kernel with name switch->input2
RGraph.cpp:641 Generating value kernel with name switch->input3
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNomber->high
RGraph.cpp:641 Generating value kernel with name randomNomber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNomber->high
RGraph.cpp:641 Generating value kernel with name randomNomber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNomber->high
RGraph.cpp:641 Generating value kernel with name randomNomber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name focalZoom->hardness
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name focalZoom->hardness
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name focalZoom->hardness
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name mode->mode
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name shift->y
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name fade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name blend->blend_mode
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
ImageBufferMap.hpp:811 Source size(width:171, height:171) != Dest1
size(width:1920, height:1920)
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
ImageBufferMap.hpp:811 Source size(width:171, height:171) != Dest1
size(width:1920, height:1920)
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
ImageBufferMap.hpp:811 Source size(width:171, height:171) != Dest1
size(width:1920, height:1920)
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
RGraph.cpp:801 >>>>>>>>>>>>> Loading graph <<<<<<<<<<<<
RGraph.cpp:641 Generating value kernel with name add->x
RGraph.cpp:641 Generating value kernel with name brightnessFade->fade
RGraph.cpp:641 Generating value kernel with name contrastFade->fade
RGraph.cpp:641 Generating value kernel with name highlightsFade->fade
RGraph.cpp:641 Generating value kernel with name lut->lutBuffer
RGraph.cpp:641 Generating value kernel with name lutFade->fade
RGraph.cpp:641 Generating value kernel with name mesh->blend_mode
RGraph.cpp:641 Generating value kernel with name mul->x
RGraph.cpp:641 Generating value kernel with name noise->noise
RGraph.cpp:641 Generating value kernel with name noise->skip
RGraph.cpp:641 Generating value kernel with name randomNomber->high
RGraph.cpp:641 Generating value kernel with name randomNomber->low
RGraph.cpp:641 Generating value kernel with name scaleSize->maxEdgeSize
RGraph.cpp:641 Generating value kernel with name scaleSize->skip
RGraph.cpp:641 Generating value kernel with name shadowFade->fade
RGraph.cpp:657 Creating connections
RGraph.cpp:719 Finding initial kernels
RGraph.cpp:743 Synchronizing graph types
RGraph.cpp:754 Graph type synchronization done!!!
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.
interrupt_op_jni.cpp:30 InterruptionNative function
"obtainEffectInstanceIdentifier" is called.
effect_soften.cpp:43 soften4buf - enter
interrupt_op_jni.cpp:63 InterruptionNative function "interruptEffectInstance" is
called.
interrupt_op_jni.cpp:66 Interruptiontask id = 0
interrupt_op_jni.cpp:45 InterruptionNative function
"releaseEffectInstanceIdentifier" is called.

You might also like