Update stb_image_resize2.h
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src/external/stb_image_resize2.h
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131
src/external/stb_image_resize2.h
vendored
@ -1,4 +1,4 @@
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/* stb_image_resize2 - v2.10 - public domain image resizing
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/* stb_image_resize2 - v2.12 - public domain image resizing
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by Jeff Roberts (v2) and Jorge L Rodriguez
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http://github.com/nothings/stb
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@ -11,35 +11,6 @@
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#define STB_IMAGE_RESIZE_IMPLEMENTATION
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before the #include. That will create the implementation in that file.
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PORTING FROM VERSION 1
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The API has changed. You can continue to use the old version of stb_image_resize.h,
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which is available in the "deprecated/" directory.
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If you're using the old simple-to-use API, porting is straightforward.
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(For more advanced APIs, read the documentation.)
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stbir_resize_uint8():
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- call `stbir_resize_uint8_linear`, cast channel count to `stbir_pixel_layout`
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stbir_resize_float():
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- call `stbir_resize_float_linear`, cast channel count to `stbir_pixel_layout`
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stbir_resize_uint8_srgb():
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- function name is unchanged
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- cast channel count to `stbir_pixel_layout`
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- above is sufficient unless your image has alpha and it's not RGBA/BGRA
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- in that case, follow the below instructions for stbir_resize_uint8_srgb_edgemode
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stbir_resize_uint8_srgb_edgemode()
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- switch to the "medium complexity" API
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- stbir_resize(), very similar API but a few more parameters:
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- pixel_layout: cast channel count to `stbir_pixel_layout`
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- data_type: STBIR_TYPE_UINT8_SRGB
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- edge: unchanged (STBIR_EDGE_WRAP, etc.)
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- filter: STBIR_FILTER_DEFAULT
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- which channel is alpha is specified in stbir_pixel_layout, see enum for details
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EASY API CALLS:
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Easy API downsamples w/Mitchell filter, upsamples w/cubic interpolation, clamps to edge.
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@ -296,6 +267,34 @@
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ASSERT
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Define STBIR_ASSERT(boolval) to override assert() and not use assert.h
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PORTING FROM VERSION 1
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The API has changed. You can continue to use the old version of stb_image_resize.h,
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which is available in the "deprecated/" directory.
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If you're using the old simple-to-use API, porting is straightforward.
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(For more advanced APIs, read the documentation.)
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stbir_resize_uint8():
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- call `stbir_resize_uint8_linear`, cast channel count to `stbir_pixel_layout`
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stbir_resize_float():
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- call `stbir_resize_float_linear`, cast channel count to `stbir_pixel_layout`
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stbir_resize_uint8_srgb():
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- function name is unchanged
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- cast channel count to `stbir_pixel_layout`
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- above is sufficient unless your image has alpha and it's not RGBA/BGRA
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- in that case, follow the below instructions for stbir_resize_uint8_srgb_edgemode
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stbir_resize_uint8_srgb_edgemode()
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- switch to the "medium complexity" API
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- stbir_resize(), very similar API but a few more parameters:
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- pixel_layout: cast channel count to `stbir_pixel_layout`
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- data_type: STBIR_TYPE_UINT8_SRGB
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- edge: unchanged (STBIR_EDGE_WRAP, etc.)
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- filter: STBIR_FILTER_DEFAULT
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- which channel is alpha is specified in stbir_pixel_layout, see enum for details
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FUTURE TODOS
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* For polyphase integral filters, we just memcpy the coeffs to dupe
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them, but we should indirect and use the same coeff memory.
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@ -328,6 +327,10 @@
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Nathan Reed: warning fixes for 1.0
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REVISIONS
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2.12 (2024-10-18) fix incorrect use of user_data with STBIR_FREE
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2.11 (2024-09-08) fix harmless asan warnings in 2-channel and 3-channel mode
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with AVX-2, fix some weird scaling edge conditions with
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point sample mode.
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2.10 (2024-07-27) fix the defines GCC and mingw for loop unroll control,
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fix MSVC 32-bit arm half float routines.
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2.09 (2024-06-19) fix the defines for 32-bit ARM GCC builds (was selecting
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@ -3247,6 +3250,7 @@ static void stbir__calculate_in_pixel_range( int * first_pixel, int * last_pixel
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first = (int)(STBIR_FLOORF(in_pixel_influence_lowerbound + 0.5f));
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last = (int)(STBIR_FLOORF(in_pixel_influence_upperbound - 0.5f));
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if ( last < first ) last = first; // point sample mode can span a value *right* at 0.5, and cause these to cross
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if ( edge == STBIR_EDGE_WRAP )
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{
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@ -3282,6 +3286,11 @@ static void stbir__calculate_coefficients_for_gather_upsample( float out_filter_
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stbir__calculate_in_pixel_range( &in_first_pixel, &in_last_pixel, out_pixel_center, out_filter_radius, inv_scale, out_shift, input_size, edge );
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// make sure we never generate a range larger than our precalculated coeff width
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// this only happens in point sample mode, but it's a good safe thing to do anyway
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if ( ( in_last_pixel - in_first_pixel + 1 ) > coefficient_width )
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in_last_pixel = in_first_pixel + coefficient_width - 1;
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last_non_zero = -1;
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for (i = 0; i <= in_last_pixel - in_first_pixel; i++)
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{
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@ -3317,19 +3326,22 @@ static void stbir__calculate_coefficients_for_gather_upsample( float out_filter_
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}
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}
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static void stbir__insert_coeff( stbir__contributors * contribs, float * coeffs, int new_pixel, float new_coeff )
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static void stbir__insert_coeff( stbir__contributors * contribs, float * coeffs, int new_pixel, float new_coeff, int max_width )
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{
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if ( new_pixel <= contribs->n1 ) // before the end
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{
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if ( new_pixel < contribs->n0 ) // before the front?
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{
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int j, o = contribs->n0 - new_pixel;
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for ( j = contribs->n1 - contribs->n0 ; j <= 0 ; j-- )
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coeffs[ j + o ] = coeffs[ j ];
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for ( j = 1 ; j < o ; j-- )
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coeffs[ j ] = coeffs[ 0 ];
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coeffs[ 0 ] = new_coeff;
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contribs->n0 = new_pixel;
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if ( ( contribs->n1 - new_pixel + 1 ) <= max_width )
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{
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int j, o = contribs->n0 - new_pixel;
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for ( j = contribs->n1 - contribs->n0 ; j <= 0 ; j-- )
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coeffs[ j + o ] = coeffs[ j ];
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for ( j = 1 ; j < o ; j-- )
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coeffs[ j ] = coeffs[ 0 ];
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coeffs[ 0 ] = new_coeff;
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contribs->n0 = new_pixel;
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}
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}
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else
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{
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@ -3338,12 +3350,15 @@ static void stbir__insert_coeff( stbir__contributors * contribs, float * coeffs,
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}
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else
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{
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int j, e = new_pixel - contribs->n0;
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for( j = ( contribs->n1 - contribs->n0 ) + 1 ; j < e ; j++ ) // clear in-betweens coeffs if there are any
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coeffs[j] = 0;
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if ( ( new_pixel - contribs->n0 + 1 ) <= max_width )
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{
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int j, e = new_pixel - contribs->n0;
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for( j = ( contribs->n1 - contribs->n0 ) + 1 ; j < e ; j++ ) // clear in-betweens coeffs if there are any
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coeffs[j] = 0;
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coeffs[ e ] = new_coeff;
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contribs->n1 = new_pixel;
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coeffs[ e ] = new_coeff;
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contribs->n1 = new_pixel;
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}
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}
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}
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@ -3522,6 +3537,7 @@ static void stbir__cleanup_gathered_coefficients( stbir_edge edge, stbir__filter
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coeffs = coefficient_group;
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contribs = contributors;
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for (n = 0; n < num_contributors; n++)
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{
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int i;
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@ -3561,7 +3577,7 @@ static void stbir__cleanup_gathered_coefficients( stbir_edge edge, stbir__filter
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int endi = contribs->n1;
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contribs->n1 = input_last_n1;
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for( i = input_size; i <= endi; i++ )
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( i, input_size ), coeffs[i-start] );
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( i, input_size ), coeffs[i-start], coefficient_width );
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}
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// now check left hand edge
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@ -3573,7 +3589,7 @@ static void stbir__cleanup_gathered_coefficients( stbir_edge edge, stbir__filter
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// reinsert the coeffs with it reflected or clamped (insert accumulates, if the coeffs exist)
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for( i = -1 ; i > contribs->n0 ; i-- )
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( i, input_size ), *c-- );
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( i, input_size ), *c--, coefficient_width );
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save_n0 = contribs->n0;
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save_n0_coeff = c[0]; // save it, since we didn't do the final one (i==n0), because there might be too many coeffs to hold (before we resize)!
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@ -3583,7 +3599,7 @@ static void stbir__cleanup_gathered_coefficients( stbir_edge edge, stbir__filter
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coeffs[i] = coeffs[i-save_n0];
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// now that we have shrunk down the contribs, we insert the first one safely
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( save_n0, input_size ), save_n0_coeff );
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stbir__insert_coeff( contribs, coeffs, stbir__edge_wrap_slow[edge]( save_n0, input_size ), save_n0_coeff, coefficient_width );
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}
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}
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@ -3592,6 +3608,7 @@ static void stbir__cleanup_gathered_coefficients( stbir_edge edge, stbir__filter
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int diff = contribs->n1 - contribs->n0 + 1;
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while ( diff && ( coeffs[ diff-1 ] == 0.0f ) )
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--diff;
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contribs->n1 = contribs->n0 + diff - 1;
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if ( contribs->n0 <= contribs->n1 )
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@ -3964,7 +3981,7 @@ static void stbir__calculate_filters( stbir__sampler * samp, stbir__sampler * ot
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}
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else
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{
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stbir__insert_coeff( scatter_contributors, scatter_coeffs, n, gc );
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stbir__insert_coeff( scatter_contributors, scatter_coeffs, n, gc, scatter_coefficient_width );
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}
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STBIR_ASSERT( ( scatter_contributors->n1 - scatter_contributors->n0 + 1 ) <= scatter_coefficient_width );
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}
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@ -4810,12 +4827,13 @@ static void stbir__decode_scanline(stbir__info const * stbir_info, int n, float
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stbir__simdf8_madd_mem( tot0, tot0, c, decode+(ofs)*2 );
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#define stbir__1_coeff_remnant( ofs ) \
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{ stbir__simdf t; \
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{ stbir__simdf t,d; \
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stbir__simdf_load1z( t, hc + (ofs) ); \
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stbir__simdf_load2( d, decode + (ofs) * 2 ); \
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stbir__simdf_0123to0011( t, t ); \
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stbir__simdf_mult_mem( t, t, decode+(ofs)*2 ); \
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stbir__simdf_mult( t, t, d ); \
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stbir__simdf8_add4( tot0, tot0, t ); }
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#define stbir__2_coeff_remnant( ofs ) \
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{ stbir__simdf t; \
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stbir__simdf_load2( t, hc + (ofs) ); \
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@ -6714,7 +6732,7 @@ static void stbir__free_internal_mem( stbir__info *info )
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STBIR__FREE_AND_CLEAR( info->horizontal.coefficients );
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STBIR__FREE_AND_CLEAR( info->horizontal.contributors );
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STBIR__FREE_AND_CLEAR( info->alloced_mem );
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STBIR__FREE_AND_CLEAR( info );
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STBIR_FREE( info, info->user_data );
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#endif
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}
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@ -7112,6 +7130,11 @@ static stbir__info * stbir__alloc_internal_mem_and_build_samplers( stbir__sample
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#ifdef STBIR__SEPARATE_ALLOCATIONS
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temp_mem_amt = decode_buffer_size;
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#ifdef STBIR_SIMD8
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if ( effective_channels == 3 )
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--temp_mem_amt; // avx in 3 channel mode needs one float at the start of the buffer
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#endif
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#else
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temp_mem_amt = ( decode_buffer_size + ring_buffer_size + vertical_buffer_size ) * splits;
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#endif
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@ -7217,6 +7240,12 @@ static stbir__info * stbir__alloc_internal_mem_and_build_samplers( stbir__sample
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int t, ofs, start;
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ofs = decode_buffer_size / 4;
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#if defined( STBIR__SEPARATE_ALLOCATIONS ) && defined(STBIR_SIMD8)
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if ( effective_channels == 3 )
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--ofs; // avx in 3 channel mode needs one float at the start of the buffer, so we snap back for clearing
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#endif
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start = ofs - 4;
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if ( start < 0 ) start = 0;
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