# -*- python -*- # See LICENSE file for copyright and license details. cimport cython from libc.stdint cimport * from libc.stdlib cimport malloc from libc.stddef cimport size_t from libc.errno cimport errno cdef extern from "include-libgamma.h": ctypedef struct libgamma_gamma_ramps8_t: # Gamma ramp structure for 8-bit gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` uint8_t *red # The gamma ramp for the red channel uint8_t *green # The gamma ramp for the green channel uint8_t *blue # The gamma ramp for the blue channel ctypedef struct libgamma_gamma_ramps16_t: # Gamma ramp structure for 16-bit gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` uint16_t *red # The gamma ramp for the red channel uint16_t *green # The gamma ramp for the green channel uint16_t *blue # The gamma ramp for the blue channel ctypedef struct libgamma_gamma_ramps32_t: # Gamma ramp structure for 32-bit gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` uint32_t *red # The gamma ramp for the red channel uint32_t *green # The gamma ramp for the green channel uint32_t *blue # The gamma ramp for the blue channel ctypedef struct libgamma_gamma_ramps64_t: # Gamma ramp structure for 64-bit gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` uint64_t *red # The gamma ramp for the red channel uint64_t *green # The gamma ramp for the green channel uint64_t *blue # The gamma ramp for the blue channel ctypedef struct libgamma_gamma_rampsf_t: # Gamma ramp structure for `float` gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` float *red # The gamma ramp for the red channel float *green # The gamma ramp for the green channel float *blue # The gamma ramp for the blue channel ctypedef struct libgamma_gamma_rampsd_t: # Gamma ramp structure for `double` gamma ramps size_t red_size # The size of `red` size_t green_size # The size of `green` size_t blue_size # The size of `blue` double *red # The gamma ramp for the red channel double *green # The gamma ramp for the green channel double *blue # The gamma ramp for the blue channel cdef extern int libgamma_gamma_ramps8_initialise(libgamma_gamma_ramps8_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_ramps8_free(libgamma_gamma_ramps8_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_ramps8_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef extern int libgamma_gamma_ramps16_initialise(libgamma_gamma_ramps16_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_ramps16_free(libgamma_gamma_ramps16_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_ramps16_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef extern int libgamma_gamma_ramps32_initialise(libgamma_gamma_ramps32_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_ramps32_free(libgamma_gamma_ramps32_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_ramps32_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef extern int libgamma_gamma_ramps64_initialise(libgamma_gamma_ramps64_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_ramps64_free(libgamma_gamma_ramps64_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_ramps64_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef extern int libgamma_gamma_rampsf_initialise(libgamma_gamma_rampsf_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_rampsf_free(libgamma_gamma_rampsf_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_rampsf_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef extern int libgamma_gamma_rampsd_initialise(libgamma_gamma_rampsd_t *this) nogil ''' Initialise a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation The input must have `red_size`, `green_size` and `blue_size` set to the sizes of the gamma ramps that should be allocated @param this The gamma ramps @return Zero on success, -1 on allocation error, `errno` will be set accordingly ''' cdef extern void libgamma_gamma_rampsd_free(libgamma_gamma_rampsd_t *this) nogil ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_gamma_rampsd_initialise` or otherwise initialises in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' def libgamma_native_gamma_ramps8_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_ramps8_t)) cdef libgamma_gamma_ramps8_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_ramps8_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_ramps8_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_ramps8_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_ramps8_t *item = address libgamma_gamma_ramps8_free(item) def libgamma_native_gamma_ramps8_get(this : int, index : int) -> int: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef uint8_t *ramp = address return int(ramp[index]) def libgamma_native_gamma_ramps8_set(this : int, index : int, value : int): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef uint8_t *ramp = address ramp[index] = value def libgamma_native_gamma_ramps16_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_ramps16_t)) cdef libgamma_gamma_ramps16_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_ramps16_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_ramps16_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_ramps16_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_ramps16_t *item = address libgamma_gamma_ramps16_free(item) def libgamma_native_gamma_ramps16_get(this : int, index : int) -> int: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef uint16_t *ramp = address return int(ramp[index]) def libgamma_native_gamma_ramps16_set(this : int, index : int, value : int): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef uint16_t *ramp = address ramp[index] = value def libgamma_native_gamma_ramps32_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_ramps32_t)) cdef libgamma_gamma_ramps32_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_ramps32_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_ramps32_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_ramps32_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_ramps32_t *item = address libgamma_gamma_ramps32_free(item) def libgamma_native_gamma_ramps32_get(this : int, index : int) -> int: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef uint32_t *ramp = address return int(ramp[index]) def libgamma_native_gamma_ramps32_set(this : int, index : int, value : int): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef uint32_t *ramp = address ramp[index] = value def libgamma_native_gamma_ramps64_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_ramps64_t)) cdef libgamma_gamma_ramps64_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_ramps64_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_ramps64_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_ramps64_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_ramps64_t *item = address libgamma_gamma_ramps64_free(item) def libgamma_native_gamma_ramps64_get(this : int, index : int) -> int: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef uint64_t *ramp = address return int(ramp[index]) def libgamma_native_gamma_ramps64_set(this : int, index : int, value : int): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef uint64_t *ramp = address ramp[index] = value def libgamma_native_gamma_rampsf_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_rampsf_t)) cdef libgamma_gamma_rampsf_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_rampsf_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_rampsf_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_rampsf_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_rampsf_t *item = address libgamma_gamma_rampsf_free(item) def libgamma_native_gamma_rampsf_get(this : int, index : int) -> float: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef float *ramp = address return float(ramp[index]) def libgamma_native_gamma_rampsf_set(this : int, index : int, value : float): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef float *ramp = address ramp[index] = value def libgamma_native_gamma_rampsd_create(red_size : int, green_size : int, blue_size : int): ''' Create a gamma ramp in the proper way that allows all adjustment methods to read from and write to it without causing segmentation violation @param red_size The size of the gamma ramp for the red channel @param green_size The size of the gamma ramp for the green channel @param blue_size The size of the gamma ramp for the blue channel @return :(int){4}|int The tuple that describes the created data, `errno` on failure: Element 1: The address of the gamma ramp structure Element 2: The address of the gamma ramp for the red channel Element 3: The address of the gamma ramp for the green channel Element 4: The address of the gamma ramp for the blue channel ''' cdef void *allocation = malloc(sizeof(libgamma_gamma_rampsd_t)) cdef libgamma_gamma_rampsd_t *item = allocation cdef size_t red, green, blue if item is NULL: return int(errno) item.red_size = red_size item.green_size = green_size item.blue_size = blue_size if libgamma_gamma_rampsd_initialise(item) < 0: return int(errno) red = (item.red) green = (item.green) blue = (item.blue) return (int(allocation), int(red), int(green), int(blue)) def libgamma_native_gamma_rampsd_free(this : int): ''' Release resources that are held by a gamma ramp strcuture that has been allocated by `libgamma_native_gamma_rampsd_create` or otherwise created in the proper manner, as well as release the pointer to the structure @param this The gamma ramps ''' cdef void *address = this cdef libgamma_gamma_rampsd_t *item = address libgamma_gamma_rampsd_free(item) def libgamma_native_gamma_rampsd_get(this : int, index : int) -> float: ''' Read a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @return The value of the gamma ramp stop ''' cdef void *address = this cdef double *ramp = address return float(ramp[index]) def libgamma_native_gamma_rampsd_set(this : int, index : int, value : float): ''' Modify a stop in a gamma ramp @param this The gamma ramp @param index The index of the gamma ramp stop @param value The value of the gamma ramp stop ''' cdef void *address = this cdef double *ramp = address ramp[index] = value