anulax
/
stb
1
0
Fork 0
Code Issues Pull Requests Packages project_board Releases Wiki Activity
stb single-file public domain libraries for C/C++
You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and dots ('.'), can be up to 35 characters long. Letters must be lowercase.
246 Commits
1 Branch
0 Tags
6.0 MiB
 
 
Tag: Branch: Tree: 9a1d34843e
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from "9a1d34843e"
${ noResults }
stb/stb_image_resize.h

1891 lines
79 KiB
Raw Blame History

/* stb_image_resize - v0.50 - public domain image resampling
no warranty implied; use at your own risk
Do this:
#define STB_IMAGE_RESIZE_IMPLEMENTATION
before you include this file in *one* C or C++ file to create the implementation.
#define STBIR_ASSERT(x) to avoid using assert.h.
#define STBIR_MALLOC(context,size) and STBIR_FREE(context,ptr) to avoid using stdlib.h malloc.
Each function makes exactly one call to malloc/free, so to avoid allocations,
pass in a temp memory block as context and return that from MALLOC.
QUICK NOTES:
Written with emphasis on usage and speed. Only the resize operation is
currently supported, no rotations or translations.
Supports arbitrary resize for separable filters. For a list of
supported filters see the stbir_filter enum. To add a new filter,
write a filter function and add it to stbir__filter_info_table.
Latest revisions:
0.50 (2014-07-29) first released version
See end of file for full revision history.
TODO:
Installable filters
Specify wrap and filter modes independently for each axis
Resize that respects alpha test coverage
(Reference code: FloatImage::alphaTestCoverage and FloatImage::scaleAlphaToCoverage:
https://code.google.com/p/nvidia-texture-tools/source/browse/trunk/src/nvimage/FloatImage.cpp )
Initial implementation by Jorge L Rodriguez, @VinoBS
*/
#ifndef STBIR_INCLUDE_STB_IMAGE_RESIZE_H
#define STBIR_INCLUDE_STB_IMAGE_RESIZE_H
typedef unsigned char stbir_uint8;
#ifdef _MSC_VER
typedef unsigned short stbir_uint16;
typedef unsigned int stbir_uint32;
#else
#include <stdint.h>
typedef uint16_t stbir_uint16;
typedef uint32_t stbir_uint32;
#endif
#ifdef STB_IMAGE_RESIZE_STATIC
#define STBIRDEF static
#else
#ifdef __cplusplus
#define STBIRDEF extern "C"
#else
#define STBIRDEF extern
#endif
#endif
//////////////////////////////////////////////////////////////////////////////
//
// Easy-to-use API:
//
// * "input pixels" points to an array of image data with 'num_channels' channels (e.g. RGB=3, RGBA=4)
// * input_w is input image width (x-axis), input_h is input image height (y-axis)
// * stride is the offset between successive rows of image data in memory, in bytes. you can
// specify 0 to mean packed continuously in memory
// * alpha channel is treated identically to other channels.
// * colorspace is linear or sRGB as specified by function name
// * returned result is 1 for success or 0 in case of an error.
// In the case of an error an assert with be triggered, #define STBIR_ASSERT() to see it.
// * Memory required grows approximately linearly with input and output size, but with
// discontinuities at input_w == output_w and input_h == output_h.
// * These functions use a "default" resampling filter defined at compile time. To change the filter,
// you can change the compile-time defaults by #defining STBIR_DEFAULT_FILTER_UPSAMPLE
// and STBIR_DEFAULT_FILTER_DOWNSAMPLE, or you can use the medium-complexity API.
STBIRDEF int stbir_resize_uint8( const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels);
STBIRDEF int stbir_resize_uint8_srgb(const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels);
STBIRDEF int stbir_resize_float( const float *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
float *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels);
typedef enum
{
STBIR_EDGE_CLAMP = 1,
STBIR_EDGE_REFLECT = 2,
STBIR_EDGE_WRAP = 3,
STBIR_EDGE_ZERO = 4,
} stbir_edge;
// This function adds the ability to specify how requests to sample off the edge of the image are handled.
STBIRDEF int stbir_resize_uint8_srgb_edgemode(const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels,
stbir_edge edge_wrap_mode);
//////////////////////////////////////////////////////////////////////////////
//
// Medium-complexity API
//
// This extends the easy-to-use API as follows:
//
// * Alpha-channel can be processed separately
// * If alpha_channel is not STBIR_ALPHA_CHANNEL_NONE
// * Alpha channel will not be gamma corrected (unless flags&STBIR_FLAG_GAMMA_CORRECT)
// * Filters can be weighted by alpha channel (if flags&STBIR_FLAG_NONPREMUL_ALPHA)
// * Filter can be selected explicitly
// * uint16 image type
// * sRGB colorspace available for all types
// * context parameter for passing to STBIR_MALLOC
typedef enum
{
STBIR_FILTER_DEFAULT = 0, // use same filter type that easy-to-use API chooses
STBIR_FILTER_NEAREST = 1,
STBIR_FILTER_BILINEAR = 2,
STBIR_FILTER_BICUBIC = 3, // A cubic b spline
STBIR_FILTER_CATMULLROM = 4,
STBIR_FILTER_MITCHELL = 5,
} stbir_filter;
#define STBIR_FLAG_NONPREMUL_ALPHA (1 << 0) // The specified alpha channel will be multiplied into all other channels before resampling, then divided back out after.
#define STBIR_FLAG_GAMMA_CORRECT_ALPHA (1 << 1) // The specified alpha channel should be handled as gamma-corrected value even when doing sRGB operations.
typedef enum
{
STBIR_COLORSPACE_LINEAR,
STBIR_COLORSPACE_SRGB,
STBIR_MAX_COLORSPACES,
} stbir_colorspace;
// The following functions are all identical except for the type of the image data
STBIRDEF int stbir_resize_uint8_generic( const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context);
STBIRDEF int stbir_resize_uint16_generic(const stbir_uint16 *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
stbir_uint16 *output_pixels , int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context);
STBIRDEF int stbir_resize_float_generic( const float *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
float *output_pixels , int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context);
#define STBIR_ALPHA_CHANNEL_NONE -1
//////////////////////////////////////////////////////////////////////////////
//
// Full-complexity API
//
// This extends the medium API as follows:
//
// * uint32 image type
// * not typesafe
// * separate filter types for each axis
// * separate edge modes for each axis
// * can specify scale explicitly for subpixel correctness
// * can specify image source tile using texture coordinates
typedef enum
{
STBIR_TYPE_UINT8 ,
STBIR_TYPE_UINT16,
STBIR_TYPE_UINT32,
STBIR_TYPE_FLOAT ,
STBIR_MAX_TYPES
} stbir_datatype;
STBIRDEF int stbir_resize( const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context);
STBIRDEF int stbir_resize_subpixel(const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context,
float x_scale, float x_offset,
float y_scale, float y_offset);
STBIRDEF int stbir_resize_region( const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context,
float s0, float t0, float s1, float t1);
// (s0, t0) & (s1, t1) are the top-left and bottom right corner (uv addressing style: [0, 1]x[0, 1]) of a region of the input image to use.
//
//
//// end header file /////////////////////////////////////////////////////
#endif // STBIR_INCLUDE_STB_IMAGE_RESIZE_H
#ifdef STB_IMAGE_RESIZE_IMPLEMENTATION
#ifndef STBIR_ASSERT
#include <assert.h>
#define STBIR_ASSERT(x) assert(x)
#endif
#ifdef STBIR_DEBUG
#define STBIR__DEBUG_ASSERT STBIR_ASSERT
#else
#define STBIR__DEBUG_ASSERT
#endif
// If you hit this it means I haven't done it yet.
#define STBIR__UNIMPLEMENTED(x) STBIR_ASSERT(!(x))
// For memset
#include <string.h>
#include <math.h>
#ifndef STBIR_MALLOC
#include <stdlib.h>
#define STBIR_MALLOC(c,x) malloc(x)
#define STBIR_FREE(c,x) free(x)
#endif
#ifndef _MSC_VER
#ifdef __cplusplus
#define stbir__inline inline
#else
#define stbir__inline
#endif
#else
#define stbir__inline __forceinline
#endif
// should produce compiler error if size is wrong
typedef unsigned char stbir__validate_uint32[sizeof(stbir_uint32) == 4 ? 1 : -1];
#ifdef _MSC_VER
#define STBIR__NOTUSED(v) (void)(v)
#else
#define STBIR__NOTUSED(v) (void)sizeof(v)
#endif
#define STBIR__ARRAY_SIZE(a) (sizeof((a))/sizeof((a)[0]))
#ifndef STBIR_DEFAULT_FILTER_UPSAMPLE
#define STBIR_DEFAULT_FILTER_UPSAMPLE STBIR_FILTER_CATMULLROM
#endif
#ifndef STBIR_DEFAULT_FILTER_DOWNSAMPLE
#define STBIR_DEFAULT_FILTER_DOWNSAMPLE STBIR_FILTER_MITCHELL
#endif
// must match stbir_datatype
static unsigned char stbir__type_size[] = {
1, // STBIR_TYPE_UINT8
2, // STBIR_TYPE_UINT16
4, // STBIR_TYPE_UINT32
4, // STBIR_TYPE_FLOAT
};
// Kernel function centered at 0
typedef float (stbir__kernel_fn)(float x);
typedef struct
{
stbir__kernel_fn* kernel;
float support;
} stbir__filter_info;
// When upsampling, the contributors are which source pixels contribute.
// When downsampling, the contributors are which destination pixels are contributed to.
typedef struct
{
int n0; // First contributing pixel
int n1; // Last contributing pixel
} stbir__contributors;
typedef struct
{
const void* input_data;
int input_w;
int input_h;
int input_stride_bytes;
void* output_data;
int output_w;
int output_h;
int output_stride_bytes;
float s0, t0, s1, t1;
float horizontal_shift; // Units: output pixels
float vertical_shift; // Units: output pixels
float horizontal_scale;
float vertical_scale;
int channels;
int alpha_channel;
stbir_uint32 flags;
stbir_datatype type;
stbir_filter horizontal_filter;
stbir_filter vertical_filter;
stbir_edge edge_horizontal;
stbir_edge edge_vertical;
stbir_colorspace colorspace;
stbir__contributors* horizontal_contributors;
float* horizontal_coefficients;
stbir__contributors vertical_contributors;
float* vertical_coefficients;
int decode_buffer_pixels;
float* decode_buffer;
float* horizontal_buffer;
int ring_buffer_length_bytes; // The length of an individual entry in the ring buffer. The total number of ring buffers is stbir__get_filter_pixel_width(filter)
int ring_buffer_first_scanline;
int ring_buffer_last_scanline;
int ring_buffer_begin_index;
float* ring_buffer;
float* encode_buffer; // A temporary buffer to store floats so we don't lose precision while we do multiply-adds.
} stbir__info;
static stbir__inline int stbir__min(int a, int b)
{
return a < b ? a : b;
}
static stbir__inline int stbir__max(int a, int b)
{
return a > b ? a : b;
}
static stbir__inline float stbir__saturate(float x)
{
if (x < 0)
return 0;
if (x > 1)
return 1;
return x;
}
static float stbir__srgb_uchar_to_linear_float[256] = {
0.000000f, 0.000304f, 0.000607f, 0.000911f, 0.001214f, 0.001518f, 0.001821f, 0.002125f, 0.002428f, 0.002732f, 0.003035f,
0.003347f, 0.003677f, 0.004025f, 0.004391f, 0.004777f, 0.005182f, 0.005605f, 0.006049f, 0.006512f, 0.006995f, 0.007499f,
0.008023f, 0.008568f, 0.009134f, 0.009721f, 0.010330f, 0.010960f, 0.011612f, 0.012286f, 0.012983f, 0.013702f, 0.014444f,
0.015209f, 0.015996f, 0.016807f, 0.017642f, 0.018500f, 0.019382f, 0.020289f, 0.021219f, 0.022174f, 0.023153f, 0.024158f,
0.025187f, 0.026241f, 0.027321f, 0.028426f, 0.029557f, 0.030713f, 0.031896f, 0.033105f, 0.034340f, 0.035601f, 0.036889f,
0.038204f, 0.039546f, 0.040915f, 0.042311f, 0.043735f, 0.045186f, 0.046665f, 0.048172f, 0.049707f, 0.051269f, 0.052861f,
0.054480f, 0.056128f, 0.057805f, 0.059511f, 0.061246f, 0.063010f, 0.064803f, 0.066626f, 0.068478f, 0.070360f, 0.072272f,
0.074214f, 0.076185f, 0.078187f, 0.080220f, 0.082283f, 0.084376f, 0.086500f, 0.088656f, 0.090842f, 0.093059f, 0.095307f,
0.097587f, 0.099899f, 0.102242f, 0.104616f, 0.107023f, 0.109462f, 0.111932f, 0.114435f, 0.116971f, 0.119538f, 0.122139f,
0.124772f, 0.127438f, 0.130136f, 0.132868f, 0.135633f, 0.138432f, 0.141263f, 0.144128f, 0.147027f, 0.149960f, 0.152926f,
0.155926f, 0.158961f, 0.162029f, 0.165132f, 0.168269f, 0.171441f, 0.174647f, 0.177888f, 0.181164f, 0.184475f, 0.187821f,
0.191202f, 0.194618f, 0.198069f, 0.201556f, 0.205079f, 0.208637f, 0.212231f, 0.215861f, 0.219526f, 0.223228f, 0.226966f,
0.230740f, 0.234551f, 0.238398f, 0.242281f, 0.246201f, 0.250158f, 0.254152f, 0.258183f, 0.262251f, 0.266356f, 0.270498f,
0.274677f, 0.278894f, 0.283149f, 0.287441f, 0.291771f, 0.296138f, 0.300544f, 0.304987f, 0.309469f, 0.313989f, 0.318547f,
0.323143f, 0.327778f, 0.332452f, 0.337164f, 0.341914f, 0.346704f, 0.351533f, 0.356400f, 0.361307f, 0.366253f, 0.371238f,
0.376262f, 0.381326f, 0.386430f, 0.391573f, 0.396755f, 0.401978f, 0.407240f, 0.412543f, 0.417885f, 0.423268f, 0.428691f,
0.434154f, 0.439657f, 0.445201f, 0.450786f, 0.456411f, 0.462077f, 0.467784f, 0.473532f, 0.479320f, 0.485150f, 0.491021f,
0.496933f, 0.502887f, 0.508881f, 0.514918f, 0.520996f, 0.527115f, 0.533276f, 0.539480f, 0.545725f, 0.552011f, 0.558340f,
0.564712f, 0.571125f, 0.577581f, 0.584078f, 0.590619f, 0.597202f, 0.603827f, 0.610496f, 0.617207f, 0.623960f, 0.630757f,
0.637597f, 0.644480f, 0.651406f, 0.658375f, 0.665387f, 0.672443f, 0.679543f, 0.686685f, 0.693872f, 0.701102f, 0.708376f,
0.715694f, 0.723055f, 0.730461f, 0.737911f, 0.745404f, 0.752942f, 0.760525f, 0.768151f, 0.775822f, 0.783538f, 0.791298f,
0.799103f, 0.806952f, 0.814847f, 0.822786f, 0.830770f, 0.838799f, 0.846873f, 0.854993f, 0.863157f, 0.871367f, 0.879622f,
0.887923f, 0.896269f, 0.904661f, 0.913099f, 0.921582f, 0.930111f, 0.938686f, 0.947307f, 0.955974f, 0.964686f, 0.973445f,
0.982251f, 0.991102f, 1.0f
};
static unsigned char stbir__linear_uchar_to_srgb_uchar[256] = {
0, 12, 21, 28, 33, 38, 42, 46, 49, 52, 55, 58, 61, 63, 66, 68, 70, 73, 75, 77, 79, 81, 82, 84, 86, 88, 89, 91, 93, 94,
96, 97, 99, 100, 102, 103, 104, 106, 107, 109, 110, 111, 112, 114, 115, 116, 117, 118, 120, 121, 122, 123, 124, 125, 126,
127, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 142, 143, 144, 145, 146, 147, 148, 149, 150,
151, 151, 152, 153, 154, 155, 156, 157, 157, 158, 159, 160, 161, 161, 162, 163, 164, 165, 165, 166, 167, 168, 168, 169,
170, 171, 171, 172, 173, 174, 174, 175, 176, 176, 177, 178, 179, 179, 180, 181, 181, 182, 183, 183, 184, 185, 185, 186,
187, 187, 188, 189, 189, 190, 191, 191, 192, 193, 193, 194, 194, 195, 196, 196, 197, 197, 198, 199, 199, 200, 201, 201,
202, 202, 203, 204, 204, 205, 205, 206, 206, 207, 208, 208, 209, 209, 210, 210, 211, 212, 212, 213, 213, 214, 214, 215,
215, 216, 217, 217, 218, 218, 219, 219, 220, 220, 221, 221, 222, 222, 223, 223, 224, 224, 225, 226, 226, 227, 227, 228,
228, 229, 229, 230, 230, 231, 231, 232, 232, 233, 233, 234, 234, 235, 235, 236, 236, 237, 237, 237, 238, 238, 239, 239,
240, 240, 241, 241, 242, 242, 243, 243, 244, 244, 245, 245, 245, 246, 246, 247, 247, 248, 248, 249, 249, 250, 250, 251,
251, 251, 252, 252, 253, 253, 254, 254, 255
};
float stbir__srgb_to_linear(float f)
{
if (f <= 0.04045f)
return f / 12.92f;
else
return (float)pow((f + 0.055f) / 1.055f, 2.4f);
}
float stbir__linear_to_srgb(float f)
{
if (f <= 0.0031308f)
return f * 12.92f;
else
return 1.055f * (float)pow(f, 1 / 2.4f) - 0.055f;
}
static float stbir__filter_nearest(float x)
{
if (x <= -0.5f)
return 0;
else if (x > 0.5f)
return 0;
else
return 1;
}
static float stbir__filter_bilinear(float x)
{
x = (float)fabs(x);
if (x <= 1.0f)
return 1 - x;
else
return 0;
}
static float stbir__filter_bicubic(float x)
{
x = (float)fabs(x);
if (x < 1.0f)
return 0.66666666666f + x*x*(0.5f*x - 1);
else if (x < 2.0f)
return 1.3333333333f + x*(-2 + x*(1 - 0.16666666f * x));
return (0.0f);
}
static float stbir__filter_catmullrom(float x)
{
x = (float)fabs(x);
if (x < 1.0f)
return 1 - x*x*(2.5f - 1.5f*x);
else if (x < 2.0f)
return 2 - x*(4 + x*(0.5f*x - 2.5f));
return (0.0f);
}
static float stbir__filter_mitchell(float x)
{
x = (float)fabs(x);
if (x < 1.0f)
return 0.8888888888f + x*x*(1.1666666666666f * x - 2.0f);
else if (x < 2.0f)
return 1.777777777777f + x*(-3.3333333333f + x*(2 - 0.3888888888888f*x));
return (0.0f);
}
static stbir__filter_info stbir__filter_info_table[] = {
{ NULL, 0.0f },
{ stbir__filter_nearest, 0.5f },
{ stbir__filter_bilinear, 1.0f },
{ stbir__filter_bicubic, 2.0f },
{ stbir__filter_catmullrom, 2.0f },
{ stbir__filter_mitchell, 2.0f },
};
stbir__inline static int stbir__use_upsampling(float ratio)
{
return ratio > 1;
}
stbir__inline static int stbir__use_width_upsampling(stbir__info* stbir_info)
{
return stbir__use_upsampling(stbir_info->horizontal_scale);
}
stbir__inline static int stbir__use_height_upsampling(stbir__info* stbir_info)
{
return stbir__use_upsampling(stbir_info->vertical_scale);
}
// This is the maximum number of input samples that can affect an output sample
// with the given filter
stbir__inline static int stbir__get_filter_pixel_width(stbir_filter filter, int input_w, int output_w, float scale)
{
STBIR_ASSERT(filter != 0);
STBIR_ASSERT(filter < STBIR__ARRAY_SIZE(stbir__filter_info_table));
if (stbir__use_upsampling(scale))
return (int)ceil(stbir__filter_info_table[filter].support * 2);
else
return (int)ceil(stbir__filter_info_table[filter].support * 2 / scale);
}
stbir__inline static int stbir__get_filter_pixel_width_horizontal(stbir__info* stbir_info)
{
return stbir__get_filter_pixel_width(stbir_info->horizontal_filter, stbir_info->input_w, stbir_info->output_w, stbir_info->horizontal_scale);
}
stbir__inline static int stbir__get_filter_pixel_width_vertical(stbir__info* stbir_info)
{
return stbir__get_filter_pixel_width(stbir_info->vertical_filter, stbir_info->input_h, stbir_info->output_h, stbir_info->vertical_scale);
}
// This is how much to expand buffers to account for filters seeking outside
// the image boundaries.
stbir__inline static int stbir__get_filter_pixel_margin(stbir_filter filter, int input_w, int output_w, float scale)
{
return stbir__get_filter_pixel_width(filter, input_w, output_w, scale) / 2;
}
stbir__inline static int stbir__get_filter_pixel_margin_horizontal(stbir__info* stbir_info)
{
return stbir__get_filter_pixel_width(stbir_info->horizontal_filter, stbir_info->input_w, stbir_info->output_w, stbir_info->horizontal_scale) / 2;
}
stbir__inline static int stbir__get_filter_pixel_margin_vertical(stbir__info* stbir_info)
{
return stbir__get_filter_pixel_width(stbir_info->vertical_filter, stbir_info->input_h, stbir_info->output_h, stbir_info->vertical_scale) / 2;
}
stbir__inline static int stbir__get_horizontal_contributors_noinfo(stbir_filter filter, int input_w, int output_w, float horizontal_scale)
{
if (stbir__use_upsampling(horizontal_scale))
return output_w;
else
return (input_w + stbir__get_filter_pixel_margin(filter, input_w, output_w, horizontal_scale) * 2);
}
stbir__inline static int stbir__get_horizontal_contributors(stbir__info* stbir_info)
{
return stbir__get_horizontal_contributors_noinfo(stbir_info->horizontal_filter, stbir_info->input_w, stbir_info->output_w, stbir_info->horizontal_scale);
}
stbir__inline static int stbir__get_total_coefficients_noinfo(stbir_filter h_filter, int input_w, int output_w, float horizontal_scale)
{
return stbir__get_horizontal_contributors_noinfo(h_filter, input_w, output_w, horizontal_scale)
* stbir__get_filter_pixel_width (h_filter, input_w, output_w, horizontal_scale);
}
stbir__inline static int stbir__get_total_coefficients(stbir__info* stbir_info)
{
return stbir__get_total_coefficients_noinfo(stbir_info->horizontal_filter, stbir_info->input_w, stbir_info->output_w, stbir_info->horizontal_scale);
}
stbir__inline static stbir__contributors* stbir__get_contributor(stbir__info* stbir_info, int n)
{
STBIR__DEBUG_ASSERT(n >= 0 && n < stbir__get_horizontal_contributors(stbir_info));
return &stbir_info->horizontal_contributors[n];
}
stbir__inline static float* stbir__get_coefficient(stbir__info* stbir_info, int n, int c)
{
return &stbir_info->horizontal_coefficients[stbir__get_filter_pixel_width(stbir_info->horizontal_filter, stbir_info->input_w, stbir_info->output_w, stbir_info->horizontal_scale)*n + c];
}
static int stbir__edge_wrap_slow(stbir_edge edge, int n, int max)
{
switch (edge)
{
case STBIR_EDGE_ZERO:
return 0;
case STBIR_EDGE_CLAMP:
if (n < 0)
return 0;
if (n >= max)
return max - 1;
return n; // NOTREACHED
case STBIR_EDGE_REFLECT:
{
if (n < 0)
{
if (n < max)
return -n;
else
return max - 1;
}
if (n >= max)
{
int max2 = max * 2;
if (n >= max2)
return 0;
else
return max2 - n - 1;
}
return n; // NOTREACHED
}
case STBIR_EDGE_WRAP:
if (n >= 0)
return (n % max);
else
{
int m = (-n) % max;
if (m != 0)
m = max - m;
return (m);
}
return n; // NOTREACHED
default:
STBIR__UNIMPLEMENTED("Unimplemented edge type");
return 0;
}
}
stbir__inline static int stbir__edge_wrap(stbir_edge edge, int n, int max)
{
// avoid per-pixel switch
if (n >= 0 && n < max)
return n;
return stbir__edge_wrap_slow(edge, n, max);
}
// What input pixels contribute to this output pixel?
static void stbir__calculate_sample_range_upsample(int n, float out_filter_radius, float scale_ratio, float out_shift, int* in_first_pixel, int* in_last_pixel, float* in_center_of_out)
{
float out_pixel_center = (float)n + 0.5f;
float out_pixel_influence_lowerbound = out_pixel_center - out_filter_radius;
float out_pixel_influence_upperbound = out_pixel_center + out_filter_radius;
float in_pixel_influence_lowerbound = (out_pixel_influence_lowerbound + out_shift) / scale_ratio;
float in_pixel_influence_upperbound = (out_pixel_influence_upperbound + out_shift) / scale_ratio;
*in_center_of_out = (out_pixel_center + out_shift) / scale_ratio;
*in_first_pixel = (int)(floor(in_pixel_influence_lowerbound + 0.5));
*in_last_pixel = (int)(floor(in_pixel_influence_upperbound - 0.5));
}
// What output pixels does this input pixel contribute to?
static void stbir__calculate_sample_range_downsample(int n, float in_pixels_radius, float scale_ratio, float out_shift, int* out_first_pixel, int* out_last_pixel, float* out_center_of_in)
{
float in_pixel_center = (float)n + 0.5f;
float in_pixel_influence_lowerbound = in_pixel_center - in_pixels_radius;
float in_pixel_influence_upperbound = in_pixel_center + in_pixels_radius;
float out_pixel_influence_lowerbound = in_pixel_influence_lowerbound * scale_ratio - out_shift;
float out_pixel_influence_upperbound = in_pixel_influence_upperbound * scale_ratio - out_shift;
*out_center_of_in = in_pixel_center * scale_ratio - out_shift;
*out_first_pixel = (int)(floor(out_pixel_influence_lowerbound + 0.5));
*out_last_pixel = (int)(floor(out_pixel_influence_upperbound - 0.5));
}
static void stbir__calculate_coefficients_upsample(stbir__info* stbir_info, stbir_filter filter, int in_first_pixel, int in_last_pixel, float in_center_of_out, stbir__contributors* contributor, float* coefficient_group)
{
int i;
float total_filter = 0;
float filter_scale;
STBIR__DEBUG_ASSERT(in_last_pixel - in_first_pixel <= stbir__get_filter_pixel_width_horizontal(stbir_info));
contributor->n0 = in_first_pixel;
contributor->n1 = in_last_pixel;
STBIR__DEBUG_ASSERT(contributor->n1 >= contributor->n0);
for (i = 0; i <= in_last_pixel - in_first_pixel; i++)
{
float in_pixel_center = (float)(i + in_first_pixel) + 0.5f;
total_filter += coefficient_group[i] = stbir__filter_info_table[filter].kernel(in_center_of_out - in_pixel_center);
}
STBIR__DEBUG_ASSERT(total_filter > 0.9);
STBIR__DEBUG_ASSERT(total_filter < 1.1f); // Make sure it's not way off.
// Make sure the sum of all coefficients is 1.
filter_scale = 1 / total_filter;
for (i = 0; i <= in_last_pixel - in_first_pixel; i++)
coefficient_group[i] *= filter_scale;
}
static void stbir__calculate_coefficients_downsample(stbir__info* stbir_info, stbir_filter filter, float scale_ratio, int out_first_pixel, int out_last_pixel, float out_center_of_in, stbir__contributors* contributor, float* coefficient_group)
{
int i;
STBIR__DEBUG_ASSERT(out_last_pixel - out_first_pixel <= stbir__get_filter_pixel_width_horizontal(stbir_info));
contributor->n0 = out_first_pixel;
contributor->n1 = out_last_pixel;
STBIR__DEBUG_ASSERT(contributor->n1 >= contributor->n0);
for (i = 0; i <= out_last_pixel - out_first_pixel; i++)
{
float in_pixel_center = (float)(i + out_first_pixel) + 0.5f;
coefficient_group[i] = stbir__filter_info_table[filter].kernel((out_center_of_in - in_pixel_center)/scale_ratio);
}
}
#ifdef STBIR_DEBUG
static void stbir__check_downsample_coefficients(stbir__info* stbir_info)
{
int i;
for (i = 0; i < stbir_info->output_w; i++)
{
float total = 0;
int j;
for (j = 0; j < stbir__get_horizontal_contributors(stbir_info); j++)
{
if (i >= stbir_info->horizontal_contributors[j].n0 && i <= stbir_info->horizontal_contributors[j].n1)
{
float coefficient = *stbir__get_coefficient(stbir_info, j, i - stbir_info->horizontal_contributors[j].n0);
total += coefficient;
}
else if (i < stbir_info->horizontal_contributors[j].n0)
break;
}
STBIR__DEBUG_ASSERT(total > 0.9f);
STBIR__DEBUG_ASSERT(total <= 1.0f + 1.0f / (pow(2.0f, 8.0f * stbir__type_size[stbir_info->type]) - 1));
}
}
#endif
// Each scan line uses the same kernel values so we should calculate the kernel
// values once and then we can use them for every scan line.
static void stbir__calculate_horizontal_filters(stbir__info* stbir_info)
{
int n;
float scale_ratio = stbir_info->horizontal_scale;
int total_contributors = stbir__get_horizontal_contributors(stbir_info);
if (stbir__use_width_upsampling(stbir_info))
{
float out_pixels_radius = stbir__filter_info_table[stbir_info->horizontal_filter].support * scale_ratio;
// Looping through out pixels
for (n = 0; n < total_contributors; n++)
{
float in_center_of_out; // Center of the current out pixel in the in pixel space
int in_first_pixel, in_last_pixel;
stbir__calculate_sample_range_upsample(n, out_pixels_radius, scale_ratio, stbir_info->horizontal_shift, &in_first_pixel, &in_last_pixel, &in_center_of_out);
stbir__calculate_coefficients_upsample(stbir_info, stbir_info->horizontal_filter, in_first_pixel, in_last_pixel, in_center_of_out, stbir__get_contributor(stbir_info, n), stbir__get_coefficient(stbir_info, n, 0));
}
}
else
{
float in_pixels_radius = stbir__filter_info_table[stbir_info->horizontal_filter].support / scale_ratio;
// Looping through in pixels
for (n = 0; n < total_contributors; n++)
{
float out_center_of_in; // Center of the current out pixel in the in pixel space
int out_first_pixel, out_last_pixel;
int n_adjusted = n - stbir__get_filter_pixel_margin_horizontal(stbir_info);
stbir__calculate_sample_range_downsample(n_adjusted, in_pixels_radius, scale_ratio, stbir_info->horizontal_shift, &out_first_pixel, &out_last_pixel, &out_center_of_in);
stbir__calculate_coefficients_downsample(stbir_info, stbir_info->horizontal_filter, scale_ratio, out_first_pixel, out_last_pixel, out_center_of_in, stbir__get_contributor(stbir_info, n), stbir__get_coefficient(stbir_info, n, 0));
}
#ifdef STBIR_DEBUG
stbir__check_downsample_coefficients(stbir_info);
#endif
}
}
static float* stbir__get_decode_buffer(stbir__info* stbir_info)
{
// The 0 index of the decode buffer starts after the margin. This makes
// it okay to use negative indexes on the decode buffer.
return &stbir_info->decode_buffer[stbir__get_filter_pixel_margin_horizontal(stbir_info) * stbir_info->channels];
}
#define STBIR__DECODE(type, colorspace) ((type) * (STBIR_MAX_COLORSPACES) + (colorspace))
static void stbir__decode_scanline(stbir__info* stbir_info, int n)
{
int c;
int channels = stbir_info->channels;
int alpha_channel = stbir_info->alpha_channel;
int type = stbir_info->type;
int colorspace = stbir_info->colorspace;
int input_w = stbir_info->input_w;
int input_stride_bytes = stbir_info->input_stride_bytes;
float* decode_buffer = stbir__get_decode_buffer(stbir_info);
stbir_edge edge_horizontal = stbir_info->edge_horizontal;
stbir_edge edge_vertical = stbir_info->edge_vertical;
int in_buffer_row_offset = stbir__edge_wrap(edge_vertical, n, stbir_info->input_h) * input_stride_bytes;
const void* input_data = (char *) stbir_info->input_data + in_buffer_row_offset;
int max_x = input_w + stbir__get_filter_pixel_margin_horizontal(stbir_info);
int decode = STBIR__DECODE(type, colorspace);
int x = -stbir__get_filter_pixel_margin_horizontal(stbir_info);
switch (decode)
{
case STBIR__DECODE(STBIR_TYPE_UINT8, STBIR_COLORSPACE_LINEAR):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = ((float)((const unsigned char*)input_data)[input_pixel_index + c]) / 255;
}
break;
case STBIR__DECODE(STBIR_TYPE_UINT8, STBIR_COLORSPACE_SRGB):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = stbir__srgb_uchar_to_linear_float[((const unsigned char*)input_data)[input_pixel_index + c]];
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
decode_buffer[decode_pixel_index + alpha_channel] = ((float)((const unsigned char*)input_data)[input_pixel_index + alpha_channel]) / 255;
}
break;
case STBIR__DECODE(STBIR_TYPE_UINT16, STBIR_COLORSPACE_LINEAR):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = ((float)((const unsigned short*)input_data)[input_pixel_index + c]) / 65535;
}
break;
case STBIR__DECODE(STBIR_TYPE_UINT16, STBIR_COLORSPACE_SRGB):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = stbir__srgb_to_linear(((float)((const unsigned short*)input_data)[input_pixel_index + c]) / 65535);
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
decode_buffer[decode_pixel_index + alpha_channel] = ((float)((const unsigned short*)input_data)[input_pixel_index + alpha_channel]) / 65535;
}
break;
case STBIR__DECODE(STBIR_TYPE_UINT32, STBIR_COLORSPACE_LINEAR):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = (float)(((double)((const unsigned int*)input_data)[input_pixel_index + c]) / 4294967295);
}
break;
case STBIR__DECODE(STBIR_TYPE_UINT32, STBIR_COLORSPACE_SRGB):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = stbir__srgb_to_linear((float)(((double)((const unsigned int*)input_data)[input_pixel_index + c]) / 4294967295));
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
decode_buffer[decode_pixel_index + alpha_channel] = (float)(((double)((const unsigned int*)input_data)[input_pixel_index + alpha_channel]) / 4294967295);
}
break;
case STBIR__DECODE(STBIR_TYPE_FLOAT, STBIR_COLORSPACE_LINEAR):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = ((const float*)input_data)[input_pixel_index + c];
}
break;
case STBIR__DECODE(STBIR_TYPE_FLOAT, STBIR_COLORSPACE_SRGB):
for (; x < max_x; x++)
{
int decode_pixel_index = x * channels;
int input_pixel_index = stbir__edge_wrap(edge_horizontal, x, input_w) * channels;
for (c = 0; c < channels; c++)
decode_buffer[decode_pixel_index + c] = stbir__srgb_to_linear(((const float*)input_data)[input_pixel_index + c]);
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
decode_buffer[decode_pixel_index + alpha_channel] = ((const float*)input_data)[input_pixel_index + alpha_channel];
}
break;
default:
STBIR__UNIMPLEMENTED("Unknown type/colorspace/channels combination.");
break;
}
if (stbir_info->flags & STBIR_FLAG_NONPREMUL_ALPHA)
{
for (x = -stbir__get_filter_pixel_margin_horizontal(stbir_info); x < max_x; x++)
{
int decode_pixel_index = x * channels;
float alpha = decode_buffer[decode_pixel_index + alpha_channel];
for (c = 0; c < channels; c++)
{
if (c == alpha_channel)
continue;
decode_buffer[decode_pixel_index + c] *= alpha;
}
}
}
}
static float* stbir__get_ring_buffer_entry(float* ring_buffer, int index, int ring_buffer_length)
{
return &ring_buffer[index * ring_buffer_length];
}
static float* stbir__add_empty_ring_buffer_entry(stbir__info* stbir_info, int n)
{
int ring_buffer_index;
float* ring_buffer;
if (stbir_info->ring_buffer_begin_index < 0)
{
ring_buffer_index = stbir_info->ring_buffer_begin_index = 0;
stbir_info->ring_buffer_first_scanline = n;
}
else
{
ring_buffer_index = (stbir_info->ring_buffer_begin_index + (stbir_info->ring_buffer_last_scanline - stbir_info->ring_buffer_first_scanline) + 1) % stbir__get_filter_pixel_width_vertical(stbir_info);
STBIR__DEBUG_ASSERT(ring_buffer_index != stbir_info->ring_buffer_begin_index);
}
ring_buffer = stbir__get_ring_buffer_entry(stbir_info->ring_buffer, ring_buffer_index, stbir_info->ring_buffer_length_bytes / sizeof(float));
memset(ring_buffer, 0, stbir_info->ring_buffer_length_bytes);
stbir_info->ring_buffer_last_scanline = n;
return ring_buffer;
}
static void stbir__resample_horizontal_upsample(stbir__info* stbir_info, int n, float* output_buffer)
{
int x, k;
int output_w = stbir_info->output_w;
int kernel_pixel_width = stbir__get_filter_pixel_width_horizontal(stbir_info);
int channels = stbir_info->channels;
float* decode_buffer = stbir__get_decode_buffer(stbir_info);
stbir__contributors* horizontal_contributors = stbir_info->horizontal_contributors;
float* horizontal_coefficients = stbir_info->horizontal_coefficients;
for (x = 0; x < output_w; x++)
{
int n0 = horizontal_contributors[x].n0;
int n1 = horizontal_contributors[x].n1;
int out_pixel_index = x * channels;
int coefficient_group_index = x * kernel_pixel_width;
int coefficient_counter = 0;
STBIR__DEBUG_ASSERT(n1 >= n0);
STBIR__DEBUG_ASSERT(n0 >= -stbir__get_filter_pixel_margin_horizontal(stbir_info));
STBIR__DEBUG_ASSERT(n1 >= -stbir__get_filter_pixel_margin_horizontal(stbir_info));
STBIR__DEBUG_ASSERT(n0 < stbir_info->input_w + stbir__get_filter_pixel_margin_horizontal(stbir_info));
STBIR__DEBUG_ASSERT(n1 < stbir_info->input_w + stbir__get_filter_pixel_margin_horizontal(stbir_info));
for (k = n0; k <= n1; k++)
{
int coefficient_index = coefficient_group_index + (coefficient_counter++);
int in_pixel_index = k * channels;
float coefficient = horizontal_coefficients[coefficient_index];
int c;
for (c = 0; c < channels; c++)
output_buffer[out_pixel_index + c] += decode_buffer[in_pixel_index + c] * coefficient;
}
}
}
static void stbir__resample_horizontal_downsample(stbir__info* stbir_info, int n, float* output_buffer)
{
int x, k;
int input_w = stbir_info->input_w;
int output_w = stbir_info->output_w;
int kernel_pixel_width = stbir__get_filter_pixel_width_horizontal(stbir_info);
int channels = stbir_info->channels;
float* decode_buffer = stbir__get_decode_buffer(stbir_info);
stbir__contributors* horizontal_contributors = stbir_info->horizontal_contributors;
float* horizontal_coefficients = stbir_info->horizontal_coefficients;
int filter_pixel_margin = stbir__get_filter_pixel_margin_horizontal(stbir_info);
int max_x = input_w + filter_pixel_margin * 2;
STBIR__DEBUG_ASSERT(!stbir__use_width_upsampling(stbir_info));
for (x = 0; x < max_x; x++)
{
int n0 = horizontal_contributors[x].n0;
int n1 = horizontal_contributors[x].n1;
int in_x = x - filter_pixel_margin;
int in_pixel_index = in_x * channels;
int max_n = stbir__min(n1, output_w-1);
int coefficient_group = x*kernel_pixel_width;
STBIR__DEBUG_ASSERT(n1 >= n0);
// Using min and max to avoid writing into invalid pixels.
for (k = stbir__max(n0, 0); k <= max_n; k++)
{
int coefficient_index = (k - n0) + coefficient_group;
int out_pixel_index = k * channels;
float coefficient = horizontal_coefficients[coefficient_index];
int c;
for (c = 0; c < channels; c++)
output_buffer[out_pixel_index + c] += decode_buffer[in_pixel_index + c] * coefficient;
}
}
}
static void stbir__decode_and_resample_upsample(stbir__info* stbir_info, int n)
{
// Decode the nth scanline from the source image into the decode buffer.
stbir__decode_scanline(stbir_info, n);
// Now resample it into the ring buffer.
if (stbir__use_width_upsampling(stbir_info))
stbir__resample_horizontal_upsample(stbir_info, n, stbir__add_empty_ring_buffer_entry(stbir_info, n));
else
stbir__resample_horizontal_downsample(stbir_info, n, stbir__add_empty_ring_buffer_entry(stbir_info, n));
// Now it's sitting in the ring buffer ready to be used as source for the vertical sampling.
}
static void stbir__decode_and_resample_downsample(stbir__info* stbir_info, int n)
{
// Decode the nth scanline from the source image into the decode buffer.
stbir__decode_scanline(stbir_info, n);
memset(stbir_info->horizontal_buffer, 0, stbir_info->output_w * stbir_info->channels * sizeof(float));
// Now resample it into the horizontal buffer.
if (stbir__use_width_upsampling(stbir_info))
stbir__resample_horizontal_upsample(stbir_info, n, stbir_info->horizontal_buffer);
else
stbir__resample_horizontal_downsample(stbir_info, n, stbir_info->horizontal_buffer);
// Now it's sitting in the horizontal buffer ready to be distributed into the ring buffers.
}
// Get the specified scan line from the ring buffer.
static float* stbir__get_ring_buffer_scanline(int get_scanline, float* ring_buffer, int begin_index, int first_scanline, int ring_buffer_size, int ring_buffer_length)
{
int ring_buffer_index = (begin_index + (get_scanline - first_scanline)) % ring_buffer_size;
return stbir__get_ring_buffer_entry(ring_buffer, ring_buffer_index, ring_buffer_length);
}
static stbir__inline void stbir__encode_pixel(stbir__info* stbir_info, void* output_buffer, int output_pixel_index, float* encode_buffer, int encode_pixel_index, int channels, int alpha_channel, int decode)
{
int n;
float divide_alpha = 1;
if (stbir_info->flags&STBIR_FLAG_NONPREMUL_ALPHA) {
float alpha = encode_buffer[encode_pixel_index + alpha_channel];
float reciprocal_alpha = alpha ? 1.0f / alpha : 0;
for (n = 0; n < channels; n++)
if (n != alpha_channel)
encode_buffer[encode_pixel_index + n] *= reciprocal_alpha;
}
switch (decode)
{
case STBIR__DECODE(STBIR_TYPE_UINT8, STBIR_COLORSPACE_LINEAR):
for (n = 0; n < channels; n++)
((unsigned char*)output_buffer)[output_pixel_index + n] = (unsigned char)(stbir__saturate(encode_buffer[encode_pixel_index + n]) * 255);
break;
case STBIR__DECODE(STBIR_TYPE_UINT8, STBIR_COLORSPACE_SRGB):
for (n = 0; n < channels; n++)
((unsigned char*)output_buffer)[output_pixel_index + n] = stbir__linear_uchar_to_srgb_uchar[(unsigned char)(stbir__saturate(encode_buffer[encode_pixel_index + n]) * 255)];
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
((unsigned char*)output_buffer)[output_pixel_index + alpha_channel] = (unsigned char)(stbir__saturate(encode_buffer[encode_pixel_index + alpha_channel]) * 255);
break;
case STBIR__DECODE(STBIR_TYPE_UINT16, STBIR_COLORSPACE_LINEAR):
for (n = 0; n < channels; n++)
((unsigned short*)output_buffer)[output_pixel_index + n] = (unsigned short)(stbir__saturate(encode_buffer[encode_pixel_index + n]) * 65535);
break;
case STBIR__DECODE(STBIR_TYPE_UINT16, STBIR_COLORSPACE_SRGB):
for (n = 0; n < channels; n++)
((unsigned short*)output_buffer)[output_pixel_index + n] = (unsigned short)(stbir__linear_to_srgb(stbir__saturate(encode_buffer[encode_pixel_index + n])) * 65535);
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
((unsigned short*)output_buffer)[output_pixel_index + alpha_channel] = (unsigned char)(stbir__saturate(encode_buffer[encode_pixel_index + alpha_channel]) * 255);
break;
case STBIR__DECODE(STBIR_TYPE_UINT32, STBIR_COLORSPACE_LINEAR):
for (n = 0; n < channels; n++)
((unsigned int*)output_buffer)[output_pixel_index + n] = (unsigned int)(((double)stbir__saturate(encode_buffer[encode_pixel_index + n])) * 4294967295);
break;
case STBIR__DECODE(STBIR_TYPE_UINT32, STBIR_COLORSPACE_SRGB):
for (n = 0; n < channels; n++)
((unsigned int*)output_buffer)[output_pixel_index + n] = (unsigned int)(((double)stbir__linear_to_srgb(stbir__saturate(encode_buffer[encode_pixel_index + n]))) * 4294967295);
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
((unsigned int*)output_buffer)[output_pixel_index + alpha_channel] = (unsigned int)(((double)stbir__saturate(encode_buffer[encode_pixel_index + alpha_channel])) * 4294967295);
break;
case STBIR__DECODE(STBIR_TYPE_FLOAT, STBIR_COLORSPACE_LINEAR):
for (n = 0; n < channels; n++)
((float*)output_buffer)[output_pixel_index + n] = encode_buffer[encode_pixel_index + n];
break;
case STBIR__DECODE(STBIR_TYPE_FLOAT, STBIR_COLORSPACE_SRGB):
for (n = 0; n < channels; n++)
((float*)output_buffer)[output_pixel_index + n] = stbir__linear_to_srgb(encode_buffer[encode_pixel_index + n]);
if (!(stbir_info->flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA))
((float*)output_buffer)[output_pixel_index + alpha_channel] = encode_buffer[encode_pixel_index + alpha_channel];
break;
default:
STBIR__UNIMPLEMENTED("Unknown type/colorspace/channels combination.");
break;
}
}
// @OPTIMIZE: embed stbir__encode_pixel and move switch out of per-pixel loop
static void stbir__encode_scanline(stbir__info* stbir_info, int num_pixels, void *output_buffer, float *encode_buffer, int channels, int alpha_channel, int decode)
{
int x;
for (x=0; x < num_pixels; ++x)
{
stbir__encode_pixel(stbir_info, output_buffer, x*channels, encode_buffer, x*channels, channels, alpha_channel, decode);
}
}
static void stbir__resample_vertical_upsample(stbir__info* stbir_info, int n, int in_first_scanline, int in_last_scanline, float in_center_of_out)
{
int x, k;
int output_w = stbir_info->output_w;
stbir__contributors* vertical_contributors = &stbir_info->vertical_contributors;
float* vertical_coefficients = stbir_info->vertical_coefficients;
int channels = stbir_info->channels;
int alpha_channel = stbir_info->alpha_channel;
int type = stbir_info->type;
int colorspace = stbir_info->colorspace;
int kernel_pixel_width = stbir__get_filter_pixel_width_vertical(stbir_info);
void* output_data = stbir_info->output_data;
float* encode_buffer = stbir_info->encode_buffer;
int decode = STBIR__DECODE(type, colorspace);
float* ring_buffer = stbir_info->ring_buffer;
int ring_buffer_begin_index = stbir_info->ring_buffer_begin_index;
int ring_buffer_first_scanline = stbir_info->ring_buffer_first_scanline;
int ring_buffer_last_scanline = stbir_info->ring_buffer_last_scanline;
int ring_buffer_length = stbir_info->ring_buffer_length_bytes/sizeof(float);
int n0,n1, output_row_start;
stbir__calculate_coefficients_upsample(stbir_info, stbir_info->vertical_filter, in_first_scanline, in_last_scanline, in_center_of_out, vertical_contributors, vertical_coefficients);
n0 = vertical_contributors->n0;
n1 = vertical_contributors->n1;
output_row_start = n * stbir_info->output_stride_bytes;
STBIR__DEBUG_ASSERT(stbir__use_height_upsampling(stbir_info));
STBIR__DEBUG_ASSERT(n0 >= in_first_scanline);
STBIR__DEBUG_ASSERT(n1 <= in_last_scanline);
memset(encode_buffer, 0, output_w * sizeof(float) * channels);
for (x = 0; x < output_w; x++)
{
int in_pixel_index = x * channels;
int coefficient_counter = 0;
STBIR__DEBUG_ASSERT(n1 >= n0);
for (k = n0; k <= n1; k++)
{
int coefficient_index = coefficient_counter++;
float* ring_buffer_entry = stbir__get_ring_buffer_scanline(k, ring_buffer, ring_buffer_begin_index, ring_buffer_first_scanline, kernel_pixel_width, ring_buffer_length);
float coefficient = vertical_coefficients[coefficient_index];
int c;
for (c = 0; c < channels; c++)
encode_buffer[x*channels + c] += ring_buffer_entry[in_pixel_index + c] * coefficient;
}
}
stbir__encode_scanline(stbir_info, output_w, (char *) output_data + output_row_start, encode_buffer, channels, alpha_channel, decode);
}
static void stbir__resample_vertical_downsample(stbir__info* stbir_info, int n, int in_first_scanline, int in_last_scanline, float in_center_of_out)
{
int x, k;
int output_w = stbir_info->output_w;
int output_h = stbir_info->output_h;
stbir__contributors* vertical_contributors = &stbir_info->vertical_contributors;
float* vertical_coefficients = stbir_info->vertical_coefficients;
int channels = stbir_info->channels;
int kernel_pixel_width = stbir__get_filter_pixel_width_vertical(stbir_info);
void* output_data = stbir_info->output_data;
float* horizontal_buffer = stbir_info->horizontal_buffer;
float* ring_buffer = stbir_info->ring_buffer;
int ring_buffer_begin_index = stbir_info->ring_buffer_begin_index;
int ring_buffer_first_scanline = stbir_info->ring_buffer_first_scanline;
int ring_buffer_last_scanline = stbir_info->ring_buffer_last_scanline;
int ring_buffer_length = stbir_info->ring_buffer_length_bytes/sizeof(float);
int n0,n1,max_n;
stbir__calculate_coefficients_downsample(stbir_info, stbir_info->vertical_filter, stbir_info->vertical_scale, in_first_scanline, in_last_scanline, in_center_of_out, vertical_contributors, vertical_coefficients);
n0 = vertical_contributors->n0;
n1 = vertical_contributors->n1;
max_n = stbir__min(n1, output_h - 1);
STBIR__DEBUG_ASSERT(!stbir__use_height_upsampling(stbir_info));
STBIR__DEBUG_ASSERT(n0 >= in_first_scanline);
STBIR__DEBUG_ASSERT(n1 <= in_last_scanline);
STBIR__DEBUG_ASSERT(n1 >= n0);
// Using min and max to avoid writing into ring buffers that will be thrown out.
for (k = stbir__max(n0, 0); k <= max_n; k++)
{
int coefficient_index = k - n0;
float* ring_buffer_entry = stbir__get_ring_buffer_scanline(k, ring_buffer, ring_buffer_begin_index, ring_buffer_first_scanline, kernel_pixel_width, ring_buffer_length);
float coefficient = vertical_coefficients[coefficient_index];
for (x = 0; x < output_w; x++)
{
int in_pixel_index = x * channels;
int c;
for (c = 0; c < channels; c++)
ring_buffer_entry[in_pixel_index + c] += horizontal_buffer[in_pixel_index + c] * coefficient;
}
}
}
static void stbir__buffer_loop_upsample(stbir__info* stbir_info)
{
int y;
float scale_ratio = stbir_info->vertical_scale;
float out_scanlines_radius = stbir__filter_info_table[stbir_info->vertical_filter].support * scale_ratio;
STBIR__DEBUG_ASSERT(stbir__use_height_upsampling(stbir_info));
for (y = 0; y < stbir_info->output_h; y++)
{
float in_center_of_out = 0; // Center of the current out scanline in the in scanline space
int in_first_scanline = 0, in_last_scanline = 0;
stbir__calculate_sample_range_upsample(y, out_scanlines_radius, scale_ratio, stbir_info->vertical_shift, &in_first_scanline, &in_last_scanline, &in_center_of_out);
STBIR__DEBUG_ASSERT(in_last_scanline - in_first_scanline <= stbir__get_filter_pixel_width_vertical(stbir_info));
if (stbir_info->ring_buffer_begin_index >= 0)
{
// Get rid of whatever we don't need anymore.
while (in_first_scanline > stbir_info->ring_buffer_first_scanline)
{
if (stbir_info->ring_buffer_first_scanline == stbir_info->ring_buffer_last_scanline)
{
// We just popped the last scanline off the ring buffer.
// Reset it to the empty state.
stbir_info->ring_buffer_begin_index = -1;
stbir_info->ring_buffer_first_scanline = 0;
stbir_info->ring_buffer_last_scanline = 0;
break;
}
else
{
stbir_info->ring_buffer_first_scanline++;
stbir_info->ring_buffer_begin_index = (stbir_info->ring_buffer_begin_index + 1) % stbir__get_filter_pixel_width_horizontal(stbir_info);
}
}
}
// Load in new ones.
if (stbir_info->ring_buffer_begin_index < 0)
stbir__decode_and_resample_upsample(stbir_info, in_first_scanline);
while (in_last_scanline > stbir_info->ring_buffer_last_scanline)
stbir__decode_and_resample_upsample(stbir_info, stbir_info->ring_buffer_last_scanline + 1);
// Now all buffers should be ready to write a row of vertical sampling.
stbir__resample_vertical_upsample(stbir_info, y, in_first_scanline, in_last_scanline, in_center_of_out);
}
}
static void stbir__empty_ring_buffer(stbir__info* stbir_info, int first_necessary_scanline)
{
int output_stride_bytes = stbir_info->output_stride_bytes;
int channels = stbir_info->channels;
int alpha_channel = stbir_info->alpha_channel;
int type = stbir_info->type;
int colorspace = stbir_info->colorspace;
int output_w = stbir_info->output_w;
void* output_data = stbir_info->output_data;
int decode = STBIR__DECODE(type, colorspace);
float* ring_buffer = stbir_info->ring_buffer;
int ring_buffer_length = stbir_info->ring_buffer_length_bytes/sizeof(float);
if (stbir_info->ring_buffer_begin_index >= 0)
{
// Get rid of whatever we don't need anymore.
while (first_necessary_scanline > stbir_info->ring_buffer_first_scanline)
{
if (stbir_info->ring_buffer_first_scanline >= 0 && stbir_info->ring_buffer_first_scanline < stbir_info->output_h)
{
int output_row_start = stbir_info->ring_buffer_first_scanline * output_stride_bytes;
float* ring_buffer_entry = stbir__get_ring_buffer_entry(ring_buffer, stbir_info->ring_buffer_begin_index, ring_buffer_length);
stbir__encode_scanline(stbir_info, output_w, (char *) output_data + output_row_start, ring_buffer_entry, channels, alpha_channel, decode);
}
if (stbir_info->ring_buffer_first_scanline == stbir_info->ring_buffer_last_scanline)
{
// We just popped the last scanline off the ring buffer.
// Reset it to the empty state.
stbir_info->ring_buffer_begin_index = -1;
stbir_info->ring_buffer_first_scanline = 0;
stbir_info->ring_buffer_last_scanline = 0;
break;
}
else
{
stbir_info->ring_buffer_first_scanline++;
stbir_info->ring_buffer_begin_index = (stbir_info->ring_buffer_begin_index + 1) % stbir__get_filter_pixel_width_vertical(stbir_info);
}
}
}
}
static void stbir__buffer_loop_downsample(stbir__info* stbir_info)
{
int y;
float scale_ratio = stbir_info->vertical_scale;
int output_h = stbir_info->output_h;
float in_pixels_radius = stbir__filter_info_table[stbir_info->vertical_filter].support / scale_ratio;
int max_y = stbir_info->input_h + stbir__get_filter_pixel_margin_vertical(stbir_info);
STBIR__DEBUG_ASSERT(!stbir__use_height_upsampling(stbir_info));
for (y = -stbir__get_filter_pixel_margin_vertical(stbir_info); y < max_y; y++)
{
float out_center_of_in; // Center of the current out scanline in the in scanline space
int out_first_scanline, out_last_scanline;
stbir__calculate_sample_range_downsample(y, in_pixels_radius, scale_ratio, stbir_info->vertical_shift, &out_first_scanline, &out_last_scanline, &out_center_of_in);
STBIR__DEBUG_ASSERT(out_last_scanline - out_first_scanline <= stbir__get_filter_pixel_width_vertical(stbir_info));
if (out_last_scanline < 0 || out_first_scanline >= output_h)
continue;
stbir__empty_ring_buffer(stbir_info, out_first_scanline);
stbir__decode_and_resample_downsample(stbir_info, y);
// Load in new ones.
if (stbir_info->ring_buffer_begin_index < 0)
stbir__add_empty_ring_buffer_entry(stbir_info, out_first_scanline);
while (out_last_scanline > stbir_info->ring_buffer_last_scanline)
stbir__add_empty_ring_buffer_entry(stbir_info, stbir_info->ring_buffer_last_scanline + 1);
// Now the horizontal buffer is ready to write to all ring buffer rows.
stbir__resample_vertical_downsample(stbir_info, y, out_first_scanline, out_last_scanline, out_center_of_in);
}
stbir__empty_ring_buffer(stbir_info, stbir_info->output_h);
}
static void stbir__calculate_transform(stbir__info *stbir_info, int input_w, int input_h, int output_w, int output_h, float s0, float t0, float s1, float t1, float *transform)
{
if (transform)
{
stbir_info->horizontal_scale = transform[0];
stbir_info->vertical_scale = transform[1];
stbir_info->horizontal_shift = transform[2];
stbir_info->vertical_shift = transform[3];
}
else
{
stbir_info->horizontal_scale = ((float)output_w / input_w) / (s1 - s0);
stbir_info->vertical_scale = ((float)output_h / input_h) / (t1 - t0);
stbir_info->horizontal_shift = s0 * input_w / (s1 - s0);
stbir_info->vertical_shift = t0 * input_h / (t1 - t0);
}
}
static void stbir__choose_filter(stbir__info *info, stbir_filter h_filter, stbir_filter v_filter)
{
if (h_filter == 0)
h_filter = stbir__use_upsampling(info->horizontal_scale) ? STBIR_DEFAULT_FILTER_UPSAMPLE : STBIR_DEFAULT_FILTER_DOWNSAMPLE;
if (v_filter == 0)
v_filter = stbir__use_upsampling(info->vertical_scale) ? STBIR_DEFAULT_FILTER_UPSAMPLE : STBIR_DEFAULT_FILTER_DOWNSAMPLE;
info->horizontal_filter = h_filter;
info->vertical_filter = v_filter;
}
static stbir_uint32 stbir__calculate_memory(stbir__info *stbir_info, int input_w, int input_h, int output_w, int output_h, float s0, float t0, float s1, float t1, int channels)
{
int pixel_margin = stbir__get_filter_pixel_margin(stbir_info->horizontal_filter, input_w, output_w, stbir_info->horizontal_scale);
int filter_height = stbir__get_filter_pixel_width(stbir_info->vertical_filter, input_h, output_h, stbir_info->vertical_scale);
int info_size = sizeof(stbir__info);
int contributors_size = stbir__get_horizontal_contributors_noinfo(stbir_info->horizontal_filter, input_w, output_w, stbir_info->horizontal_scale) * sizeof(stbir__contributors);
int horizontal_coefficients_size = stbir__get_total_coefficients_noinfo(stbir_info->horizontal_filter, input_w, output_w, stbir_info->horizontal_scale) * sizeof(float);
int vertical_coefficients_size = filter_height * sizeof(float);
int decode_buffer_size = (input_w + pixel_margin*2) * channels * sizeof(float);
int horizontal_buffer_size = output_w * channels * sizeof(float);
int ring_buffer_size = output_w * channels * filter_height * sizeof(float);
int encode_buffer_size = output_w * channels * sizeof(float);
STBIR_ASSERT(stbir_info->horizontal_filter != 0);
STBIR_ASSERT(stbir_info->horizontal_filter < STBIR__ARRAY_SIZE(stbir__filter_info_table)); // this now happens too late
STBIR_ASSERT(stbir_info->vertical_filter != 0);
STBIR_ASSERT(stbir_info->vertical_filter < STBIR__ARRAY_SIZE(stbir__filter_info_table)); // this now happens too late
if (stbir__use_upsampling(stbir_info->horizontal_scale))
// The horizontal buffer is for when we're downsampling the height and we
// can't output the result of sampling the decode buffer directly into the
// ring buffers.
horizontal_buffer_size = 0;
else
// The encode buffer is to retain precision in the height upsampling method
// and isn't used when height downsampling.
encode_buffer_size = 0;
return info_size + contributors_size + horizontal_coefficients_size + vertical_coefficients_size + decode_buffer_size + horizontal_buffer_size + ring_buffer_size + encode_buffer_size;
}
static int stbir__resize_allocated(stbir__info *stbir_info,
const void* input_data, int input_w, int input_h, int input_stride_in_bytes,
void* output_data, int output_w, int output_h, int output_stride_in_bytes,
float s0, float t0, float s1, float t1, float *transform,
int channels, int alpha_channel, stbir_uint32 flags, stbir_datatype type, stbir_filter h_filter, stbir_filter v_filter,
stbir_edge edge_horizontal, stbir_edge edge_vertical, stbir_colorspace colorspace,
void* tempmem, size_t tempmem_size_in_bytes)
{
size_t memory_required = stbir__calculate_memory(stbir_info, input_w, input_h, output_w, output_h, s0, t0, s1, t1, channels);
int width_stride_input = input_stride_in_bytes ? input_stride_in_bytes : channels * input_w * stbir__type_size[type];
int width_stride_output = output_stride_in_bytes ? output_stride_in_bytes : channels * output_w * stbir__type_size[type];
#ifdef STBIR_DEBUG_OVERWRITE_TEST
#define OVERWRITE_ARRAY_SIZE 8
unsigned char overwrite_output_before_pre[OVERWRITE_ARRAY_SIZE];
unsigned char overwrite_tempmem_before_pre[OVERWRITE_ARRAY_SIZE];
unsigned char overwrite_output_after_pre[OVERWRITE_ARRAY_SIZE];
unsigned char overwrite_tempmem_after_pre[OVERWRITE_ARRAY_SIZE];
stbir_size_t begin_forbidden = width_stride_output * (output_h - 1) + output_w * channels * stbir__type_size[type];
memcpy(overwrite_output_before_pre, &((unsigned char*)output_data)[-OVERWRITE_ARRAY_SIZE], OVERWRITE_ARRAY_SIZE);
memcpy(overwrite_output_after_pre, &((unsigned char*)output_data)[begin_forbidden], OVERWRITE_ARRAY_SIZE);
memcpy(overwrite_tempmem_before_pre, &((unsigned char*)tempmem)[-OVERWRITE_ARRAY_SIZE], OVERWRITE_ARRAY_SIZE);
memcpy(overwrite_tempmem_after_pre, &((unsigned char*)tempmem)[tempmem_size_in_bytes], OVERWRITE_ARRAY_SIZE);
#endif
STBIR_ASSERT(h_filter < STBIR__ARRAY_SIZE(stbir__filter_info_table));
STBIR_ASSERT(v_filter < STBIR__ARRAY_SIZE(stbir__filter_info_table));
if (h_filter >= STBIR__ARRAY_SIZE(stbir__filter_info_table))
return 0;
if (v_filter >= STBIR__ARRAY_SIZE(stbir__filter_info_table))
return 0;
STBIR_ASSERT(s1 > s0);
STBIR_ASSERT(t1 > t0);
if (s1 <= s0 || t1 <= t0)
return 0;
STBIR_ASSERT(s1 <= 1 && s0 >= 0 && t1 <= 1 && t0 >= 0);
if (s1 > 1 || s0 < 0 || t1 > 1 || t0 < 0)
return 0;
if (alpha_channel < 0)
flags = STBIR_FLAG_GAMMA_CORRECT_ALPHA; // this shouldn't be necessary in the long run, but safety for now
if (!(flags&STBIR_FLAG_GAMMA_CORRECT_ALPHA) || (flags&STBIR_FLAG_NONPREMUL_ALPHA))
STBIR_ASSERT(alpha_channel >= 0 && alpha_channel < channels);
if (alpha_channel >= channels)
return 0;
STBIR_ASSERT(tempmem);
if (!tempmem)
return 0;
STBIR_ASSERT(tempmem_size_in_bytes >= memory_required);
if (tempmem_size_in_bytes < memory_required)
return 0;
memset(tempmem, 0, tempmem_size_in_bytes);
stbir_info->input_data = input_data;
stbir_info->input_w = input_w;
stbir_info->input_h = input_h;
stbir_info->input_stride_bytes = width_stride_input;
stbir_info->output_data = output_data;
stbir_info->output_w = output_w;
stbir_info->output_h = output_h;
stbir_info->output_stride_bytes = width_stride_output;
stbir_info->s0 = s0;
stbir_info->t0 = t0;
stbir_info->s1 = s1;
stbir_info->t1 = t1;
stbir_info->channels = channels;
stbir_info->alpha_channel = alpha_channel;
stbir_info->flags = flags;
stbir_info->type = type;
//stbir_info->horizontal_filter = h_filter;
//stbir_info->vertical_filter = v_filter;
stbir_info->edge_horizontal = edge_horizontal;
stbir_info->edge_vertical = edge_vertical;
stbir_info->colorspace = colorspace;
stbir_info->ring_buffer_length_bytes = output_w * channels * sizeof(float);
stbir_info->decode_buffer_pixels = input_w + stbir__get_filter_pixel_margin_horizontal(stbir_info) * 2;
#define STBIR__NEXT_MEMPTR(current, old, newtype) (newtype*)(((unsigned char*)current) + old)
stbir_info->horizontal_contributors = (stbir__contributors *) tempmem;
stbir_info->horizontal_coefficients = STBIR__NEXT_MEMPTR(stbir_info->horizontal_contributors, stbir__get_horizontal_contributors(stbir_info) * sizeof(stbir__contributors), float);
stbir_info->vertical_coefficients = STBIR__NEXT_MEMPTR(stbir_info->horizontal_coefficients, stbir__get_total_coefficients(stbir_info) * sizeof(float), float);
stbir_info->decode_buffer = STBIR__NEXT_MEMPTR(stbir_info->vertical_coefficients, stbir__get_filter_pixel_width_vertical(stbir_info) * sizeof(float), float);
if (stbir__use_height_upsampling(stbir_info))
{
stbir_info->horizontal_buffer = NULL;
stbir_info->ring_buffer = STBIR__NEXT_MEMPTR(stbir_info->decode_buffer, stbir_info->decode_buffer_pixels * channels * sizeof(float), float);
stbir_info->encode_buffer = STBIR__NEXT_MEMPTR(stbir_info->ring_buffer, stbir_info->ring_buffer_length_bytes * stbir__get_filter_pixel_width_horizontal(stbir_info), float);
STBIR__DEBUG_ASSERT((size_t)STBIR__NEXT_MEMPTR(stbir_info->encode_buffer, stbir_info->channels * sizeof(float), unsigned char) == (size_t)tempmem + tempmem_size_in_bytes);
}
else
{
stbir_info->horizontal_buffer = STBIR__NEXT_MEMPTR(stbir_info->decode_buffer, stbir_info->decode_buffer_pixels * channels * sizeof(float), float);
stbir_info->ring_buffer = STBIR__NEXT_MEMPTR(stbir_info->horizontal_buffer, output_w * channels * sizeof(float), float);
stbir_info->encode_buffer = NULL;
STBIR__DEBUG_ASSERT((size_t)STBIR__NEXT_MEMPTR(stbir_info->ring_buffer, stbir_info->ring_buffer_length_bytes * stbir__get_filter_pixel_width_vertical(stbir_info), unsigned char) == (size_t)tempmem + tempmem_size_in_bytes);
}
#undef STBIR__NEXT_MEMPTR
// This signals that the ring buffer is empty
stbir_info->ring_buffer_begin_index = -1;
stbir__calculate_horizontal_filters(stbir_info);
if (stbir__use_height_upsampling(stbir_info))
stbir__buffer_loop_upsample(stbir_info);
else
stbir__buffer_loop_downsample(stbir_info);
#ifdef STBIR_DEBUG_OVERWRITE_TEST
STBIR__DEBUG_ASSERT(memcmp(overwrite_output_before_pre, &((unsigned char*)output_data)[-OVERWRITE_ARRAY_SIZE], OVERWRITE_ARRAY_SIZE) == 0);
STBIR__DEBUG_ASSERT(memcmp(overwrite_output_after_pre, &((unsigned char*)output_data)[begin_forbidden], OVERWRITE_ARRAY_SIZE) == 0);
STBIR__DEBUG_ASSERT(memcmp(overwrite_tempmem_before_pre, &((unsigned char*)tempmem)[-OVERWRITE_ARRAY_SIZE], OVERWRITE_ARRAY_SIZE) == 0);
STBIR__DEBUG_ASSERT(memcmp(overwrite_tempmem_after_pre, &((unsigned char*)tempmem)[tempmem_size_in_bytes], OVERWRITE_ARRAY_SIZE) == 0);
#endif
return 1;
}
STBIRDEF int stbir_resize_arbitrary2(
void *alloc_context,
const void* input_data, int input_w, int input_h, int input_stride_in_bytes,
void* output_data, int output_w, int output_h, int output_stride_in_bytes,
float s0, float t0, float s1, float t1, float *transform,
int channels, int alpha_channel, stbir_uint32 flags, stbir_datatype type,
stbir_filter h_filter, stbir_filter v_filter,
stbir_edge edge_horizontal, stbir_edge edge_vertical, stbir_colorspace colorspace)
{
stbir__info info;
int result;
size_t memory_required;
void* extra_memory;
stbir__calculate_transform(&info, input_w, input_h, output_w, output_h, s0,t0,s1,t1,transform);
stbir__choose_filter(&info, h_filter, v_filter);
memory_required = stbir__calculate_memory(&info, input_w, input_h, output_w, output_h, 0, 0, 1, 1, channels);
extra_memory = STBIR_MALLOC(NULL, memory_required);
if (!extra_memory)
return 0;
result = stbir__resize_allocated(&info, input_data, input_w, input_h, input_stride_in_bytes, output_data, output_w, output_h, output_stride_in_bytes, s0, t0, s1, t1, NULL,
channels, alpha_channel, flags, type, h_filter, v_filter, edge_horizontal, edge_vertical, colorspace, extra_memory, memory_required);
STBIR_FREE(context, extra_memory);
return result;
}
#if 0
STBIRDEF int stbir_resize_arbitrary(const void* input_data, int input_w, int input_h, int input_stride_in_bytes,
void* output_data, int output_w, int output_h, int output_stride_in_bytes,
float s0, float t0, float s1, float t1,
int channels, int alpha_channel, stbir_uint32 flags, stbir_datatype type,
stbir_filter filter, stbir_edge edge_horizontal, stbir_edge edge_vertical, stbir_colorspace colorspace)
{
return stbir_resize_arbitrary2(NULL, input_data, input_w, input_h, input_stride_in_bytes,
output_data, output_w, output_h, output_stride_in_bytes,
s0,t0,s1,t1,NULL, channels, alpha_channel, flags, type,
filter,filter, edge_horizontal,edge_vertical, colorspace);
}
STBIRDEF int stbir_resize_uint16_srgb(const stbir_uint16* input_data, int input_w, int input_h,
stbir_uint16* output_data, int output_w, int output_h,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, 0, 0, STBIR_TYPE_UINT16, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_uint32_srgb(const stbir_uint32* input_data, int input_w, int input_h,
stbir_uint32* output_data, int output_w, int output_h,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, 0, 0, STBIR_TYPE_UINT32, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_float_srgb(const float* input_data, int input_w, int input_h,
float* output_data, int output_w, int output_h,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, 0, 0, STBIR_TYPE_FLOAT, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_uint8_alphaweighted(const stbir_uint8* input_data, int input_w, int input_h,
stbir_uint8* output_data, int output_w, int output_h,
int channels, int alpha_channel, stbir_filter filter, stbir_edge edge, stbir_colorspace colorspace)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, alpha_channel, STBIR_FLAG_NONPREMUL_ALPHA, STBIR_TYPE_UINT8, filter, edge, edge, colorspace);
}
STBIRDEF int stbir_resize_uint16_alphaweighted(const stbir_uint16* input_data, int input_w, int input_h,
stbir_uint16* output_data, int output_w, int output_h,
int channels, int alpha_channel, stbir_filter filter, stbir_edge edge, stbir_colorspace colorspace)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, alpha_channel, STBIR_FLAG_NONPREMUL_ALPHA, STBIR_TYPE_UINT16, filter, edge, edge, colorspace);
}
STBIRDEF int stbir_resize_uint32_alphaweighted(const stbir_uint32* input_data, int input_w, int input_h,
stbir_uint32* output_data, int output_w, int output_h,
int channels, int alpha_channel, stbir_filter filter, stbir_edge edge, stbir_colorspace colorspace)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, alpha_channel, STBIR_FLAG_NONPREMUL_ALPHA, STBIR_TYPE_UINT32, filter, edge, edge, colorspace);
}
STBIRDEF int stbir_resize_float_alphaweighted(const float* input_data, int input_w, int input_h,
float* output_data, int output_w, int output_h,
int channels, int alpha_channel, stbir_filter filter, stbir_edge edge, stbir_colorspace colorspace)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, 0, 0, 1, 1, channels, alpha_channel, STBIR_FLAG_NONPREMUL_ALPHA, STBIR_TYPE_FLOAT, filter, edge, edge, colorspace);
}
STBIRDEF int stbir_resize_uint8_subpixel(const stbir_uint8* input_data, int input_w, int input_h,
stbir_uint8* output_data, int output_w, int output_h,
float s0, float t0, float s1, float t1,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, s0, t0, s1, t1, channels, 0, 0, STBIR_TYPE_UINT8, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_uint16_subpixel(const stbir_uint16* input_data, int input_w, int input_h,
stbir_uint16* output_data, int output_w, int output_h,
float s0, float t0, float s1, float t1,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, s0, t0, s1, t1, channels, 0, 0, STBIR_TYPE_UINT16, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_uint32_subpixel(const stbir_uint32* input_data, int input_w, int input_h,
stbir_uint32* output_data, int output_w, int output_h,
float s0, float t0, float s1, float t1,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, s0, t0, s1, t1, channels, 0, 0, STBIR_TYPE_UINT32, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_float_subpixel(const float* input_data, int input_w, int input_h,
float* output_data, int output_w, int output_h,
float s0, float t0, float s1, float t1,
int channels, stbir_filter filter, stbir_edge edge)
{
return stbir_resize_arbitrary(input_data, input_w, input_h, 0, output_data, output_w, output_h, 0, s0, t0, s1, t1, channels, 0, 0, STBIR_TYPE_FLOAT, filter, edge, edge, STBIR_COLORSPACE_SRGB);
}
#endif
STBIRDEF int stbir_resize_uint8( const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels)
{
return stbir_resize_arbitrary2(NULL, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,-1,0, STBIR_TYPE_UINT8, STBIR_FILTER_DEFAULT, STBIR_FILTER_DEFAULT,
STBIR_EDGE_CLAMP, STBIR_EDGE_CLAMP, STBIR_COLORSPACE_LINEAR);
}
STBIRDEF int stbir_resize_uint8_srgb(const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels)
{
return stbir_resize_arbitrary2(NULL, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,-1,0, STBIR_TYPE_UINT8, STBIR_FILTER_DEFAULT, STBIR_FILTER_DEFAULT,
STBIR_EDGE_CLAMP, STBIR_EDGE_CLAMP, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_float( const float *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
float *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels)
{
return stbir_resize_arbitrary2(NULL, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,-1,0, STBIR_TYPE_FLOAT, STBIR_FILTER_DEFAULT, STBIR_FILTER_DEFAULT,
STBIR_EDGE_CLAMP, STBIR_EDGE_CLAMP, STBIR_COLORSPACE_LINEAR);
}
STBIRDEF int stbir_resize_uint8_srgb_edgemode(const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels,
stbir_edge edge_wrap_mode)
{
return stbir_resize_arbitrary2(NULL, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,-1,0, STBIR_TYPE_UINT8, STBIR_FILTER_DEFAULT, STBIR_FILTER_DEFAULT,
edge_wrap_mode, edge_wrap_mode, STBIR_COLORSPACE_SRGB);
}
STBIRDEF int stbir_resize_uint8_generic( const unsigned char *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
unsigned char *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context)
{
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,alpha_channel,flags, STBIR_TYPE_UINT8, filter, filter,
edge_wrap_mode, edge_wrap_mode, space);
}
STBIRDEF int stbir_resize_uint16_generic(const stbir_uint16 *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
stbir_uint16 *output_pixels , int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context)
{
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,alpha_channel,flags, STBIR_TYPE_UINT16, filter, filter,
edge_wrap_mode, edge_wrap_mode, space);
}
STBIRDEF int stbir_resize_float_generic( const float *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
float *output_pixels , int output_w, int output_h, int output_stride_in_bytes,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_wrap_mode, stbir_filter filter, stbir_colorspace space,
void *alloc_context)
{
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,alpha_channel,flags, STBIR_TYPE_FLOAT, filter, filter,
edge_wrap_mode, edge_wrap_mode, space);
}
STBIRDEF int stbir_resize( const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context)
{
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,NULL,num_channels,alpha_channel,flags, datatype, filter_horizontal, filter_vertical,
edge_mode_horizontal, edge_mode_vertical, space);
}
STBIRDEF int stbir_resize_subpixel(const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context,
float x_scale, float x_offset,
float y_scale, float y_offset)
{
float transform[4];
transform[0] = x_scale;
transform[1] = y_scale;
transform[2] = x_offset;
transform[3] = y_offset;
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
0,0,1,1,transform,num_channels,alpha_channel,flags, datatype, filter_horizontal, filter_vertical,
edge_mode_horizontal, edge_mode_vertical, space);
}
STBIRDEF int stbir_resize_region( const void *input_pixels , int input_w , int input_h , int input_stride_in_bytes,
void *output_pixels, int output_w, int output_h, int output_stride_in_bytes,
stbir_datatype datatype,
int num_channels, int alpha_channel, int flags,
stbir_edge edge_mode_horizontal, stbir_edge edge_mode_vertical,
stbir_filter filter_horizontal, stbir_filter filter_vertical,
stbir_colorspace space, void *alloc_context,
float s0, float t0, float s1, float t1)
{
return stbir_resize_arbitrary2(alloc_context, input_pixels, input_w, input_h, input_stride_in_bytes,
output_pixels, output_w, output_h, output_stride_in_bytes,
s0,t0,s1,t1,NULL,num_channels,alpha_channel,flags, datatype, filter_horizontal, filter_vertical,
edge_mode_horizontal, edge_mode_vertical, space);
}
#endif // STB_IMAGE_RESIZE_IMPLEMENTATION
/*
revision history:
0.50 (2014-07-29)
first released version
*/