Revert "Remove C++11 dependency from ResampleEffect."

Add back unique_ptr, now that we have C++11.

This reverts commit 8e9f58fec54a4c879035b214fd7411f6ff7b3a32.

diff --git a/resample_effect.cpp b/resample_effect.cpp
index 0a050cf4ae720352641042ac2dc81ad043decc36..4598d34e7bb61b44d91acea41648345a059f6757 100644 (file)
--- a/resample_effect.cpp
+++ b/resample_effect.cpp
@@ -206,7 +206,7 @@ void normalize_sum(Tap<T>* vals, unsigned num)
 //
 // The greedy strategy for combining samples is optimal.
 template<class DestFloat>
 //
 // The greedy strategy for combining samples is optimal.
 template<class DestFloat>

-unsigned combine_many_samples(const Tap<float> *weights, unsigned src_size, unsigned src_samples, unsigned dst_samples, Tap<DestFloat> **bilinear_weights)
+unsigned combine_many_samples(const Tap<float> *weights, unsigned src_size, unsigned src_samples, unsigned dst_samples, unique_ptr<Tap<DestFloat>[]> *bilinear_weights)

 {
        float num_subtexels = src_size / movit_texel_subpixel_precision;
        float inv_num_subtexels = movit_texel_subpixel_precision / src_size;
 {
        float num_subtexels = src_size / movit_texel_subpixel_precision;
        float inv_num_subtexels = movit_texel_subpixel_precision / src_size;


@@ -221,10 +221,9 @@ unsigned combine_many_samples(const Tap<float> *weights, unsigned src_size, unsi
 
        // Now that we know the right width, actually combine the samples.
        unsigned src_bilinear_samples = src_samples - max_samples_saved;
 
        // Now that we know the right width, actually combine the samples.
        unsigned src_bilinear_samples = src_samples - max_samples_saved;

-       if (*bilinear_weights != nullptr) delete[] *bilinear_weights;
-       *bilinear_weights = new Tap<DestFloat>[dst_samples * src_bilinear_samples];
+       bilinear_weights->reset(new Tap<DestFloat>[dst_samples * src_bilinear_samples]);

        for (unsigned y = 0; y < dst_samples; ++y) {
        for (unsigned y = 0; y < dst_samples; ++y) {

-               Tap<DestFloat> *bilinear_weights_ptr = *bilinear_weights + y * src_bilinear_samples;
+               Tap<DestFloat> *bilinear_weights_ptr = bilinear_weights->get() + y * src_bilinear_samples;

                unsigned num_samples_saved = combine_samples(
                        weights + y * src_samples,
                        bilinear_weights_ptr,
                unsigned num_samples_saved = combine_samples(
                        weights + y * src_samples,
                        bilinear_weights_ptr,


@@ -537,15 +536,15 @@ void SingleResamplePassEffect::update_texture(GLuint glsl_program_num, const str
 
        GLenum type, internal_format;
        void *pixels;
 
        GLenum type, internal_format;
        void *pixels;

-       assert((weights.bilinear_weights_fp16 == nullptr) != (weights.bilinear_weights_fp32 == NULL));
+       assert((weights.bilinear_weights_fp16 == nullptr) != (weights.bilinear_weights_fp32 == nullptr));

        if (weights.bilinear_weights_fp32 != nullptr) {
                type = GL_FLOAT;
                internal_format = GL_RG32F;
        if (weights.bilinear_weights_fp32 != nullptr) {
                type = GL_FLOAT;
                internal_format = GL_RG32F;

-               pixels = weights.bilinear_weights_fp32;
+               pixels = weights.bilinear_weights_fp32.get();

        } else {
                type = GL_HALF_FLOAT;
                internal_format = GL_RG16F;
        } else {
                type = GL_HALF_FLOAT;
                internal_format = GL_RG16F;

-               pixels = weights.bilinear_weights_fp16;
+               pixels = weights.bilinear_weights_fp16.get();

        }
 
        if (int(weights.src_bilinear_samples) == last_texture_width &&
        }
 
        if (int(weights.src_bilinear_samples) == last_texture_width &&


@@ -561,9 +560,6 @@ void SingleResamplePassEffect::update_texture(GLuint glsl_program_num, const str
                last_texture_internal_format = internal_format;
        }
        check_error();
                last_texture_internal_format = internal_format;
        }
        check_error();

-
-       delete[] weights.bilinear_weights_fp16;
-       delete[] weights.bilinear_weights_fp32;

 }
 
 ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, float zoom, float offset)
 }
 
 ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, float zoom, float offset)


@@ -646,7 +642,7 @@ ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, f
        float radius_scaling_factor = min(scaling_factor, 1.0f);
        int int_radius = lrintf(LANCZOS_RADIUS / radius_scaling_factor);
        int src_samples = int_radius * 2 + 1;
        float radius_scaling_factor = min(scaling_factor, 1.0f);
        int int_radius = lrintf(LANCZOS_RADIUS / radius_scaling_factor);
        int src_samples = int_radius * 2 + 1;

-       Tap<float> *weights = new Tap<float>[dst_samples * src_samples];
+       unique_ptr<Tap<float>[]> weights(new Tap<float>[dst_samples * src_samples]);

        float subpixel_offset = offset - lrintf(offset);  // The part not covered by whole_pixel_offset.
        assert(subpixel_offset >= -0.5f && subpixel_offset <= 0.5f);
        for (unsigned y = 0; y < dst_samples; ++y) {
        float subpixel_offset = offset - lrintf(offset);  // The part not covered by whole_pixel_offset.
        assert(subpixel_offset >= -0.5f && subpixel_offset <= 0.5f);
        for (unsigned y = 0; y < dst_samples; ++y) {


@@ -670,14 +666,14 @@ ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, f
        // Our tolerance level for total error is a bit higher than the one for invididual
        // samples, since one would assume overall errors in the shape don't matter as much.
        const float max_error = 2.0f / (255.0f * 255.0f);
        // Our tolerance level for total error is a bit higher than the one for invididual
        // samples, since one would assume overall errors in the shape don't matter as much.
        const float max_error = 2.0f / (255.0f * 255.0f);

-       Tap<fp16_int_t> *bilinear_weights_fp16 = nullptr;
-       int src_bilinear_samples = combine_many_samples(weights, src_size, src_samples, dst_samples, &bilinear_weights_fp16);
-       Tap<float> *bilinear_weights_fp32 = nullptr;
+       unique_ptr<Tap<fp16_int_t>[]> bilinear_weights_fp16;
+       int src_bilinear_samples = combine_many_samples(weights.get(), src_size, src_samples, dst_samples, &bilinear_weights_fp16);
+       unique_ptr<Tap<float>[]> bilinear_weights_fp32 = nullptr;

        double max_sum_sq_error_fp16 = 0.0;
        for (unsigned y = 0; y < dst_samples; ++y) {
                double sum_sq_error_fp16 = compute_sum_sq_error(
        double max_sum_sq_error_fp16 = 0.0;
        for (unsigned y = 0; y < dst_samples; ++y) {
                double sum_sq_error_fp16 = compute_sum_sq_error(

-                       weights + y * src_samples, src_samples,
-                       bilinear_weights_fp16 + y * src_bilinear_samples, src_bilinear_samples,
+                       weights.get() + y * src_samples, src_samples,
+                       bilinear_weights_fp16.get() + y * src_bilinear_samples, src_bilinear_samples,

                        src_size);
                max_sum_sq_error_fp16 = std::max(max_sum_sq_error_fp16, sum_sq_error_fp16);
                if (max_sum_sq_error_fp16 > max_error) {
                        src_size);
                max_sum_sq_error_fp16 = std::max(max_sum_sq_error_fp16, sum_sq_error_fp16);
                if (max_sum_sq_error_fp16 > max_error) {


@@ -686,19 +682,16 @@ ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, f
        }
 
        if (max_sum_sq_error_fp16 > max_error) {
        }
 
        if (max_sum_sq_error_fp16 > max_error) {

-               delete[] bilinear_weights_fp16;
-               bilinear_weights_fp16 = nullptr;
-               src_bilinear_samples = combine_many_samples(weights, src_size, src_samples, dst_samples, &bilinear_weights_fp32);
+               bilinear_weights_fp16.reset();
+               src_bilinear_samples = combine_many_samples(weights.get(), src_size, src_samples, dst_samples, &bilinear_weights_fp32);

        }
 
        }
 

-       delete[] weights;
-

        ScalingWeights ret;
        ret.src_bilinear_samples = src_bilinear_samples;
        ret.dst_samples = dst_samples;
        ret.num_loops = num_loops;
        ScalingWeights ret;
        ret.src_bilinear_samples = src_bilinear_samples;
        ret.dst_samples = dst_samples;
        ret.num_loops = num_loops;

-       ret.bilinear_weights_fp16 = bilinear_weights_fp16;
-       ret.bilinear_weights_fp32 = bilinear_weights_fp32;
+       ret.bilinear_weights_fp16 = move(bilinear_weights_fp16);
+       ret.bilinear_weights_fp32 = move(bilinear_weights_fp32);

        return ret;
 }
 
        return ret;
 }
 

diff --git a/resample_effect.h b/resample_effect.h
index a8e37e4083dac02a849e9e75a09ee43873d89d05..af6a79f0227ced59522e57ced1a865d7b11a9df0 100644 (file)
--- a/resample_effect.h
+++ b/resample_effect.h
@@ -18,6 +18,7 @@
 #include <epoxy/gl.h>
 #include <assert.h>
 #include <stddef.h>
 #include <epoxy/gl.h>
 #include <assert.h>
 #include <stddef.h>

+#include <memory>

 #include <string>
 
 #include "effect.h"
 #include <string>
 
 #include "effect.h"


@@ -40,8 +41,8 @@ struct ScalingWeights {
        unsigned dst_samples, num_loops;
 
        // Exactly one of these is set.
        unsigned dst_samples, num_loops;
 
        // Exactly one of these is set.

-       Tap<fp16_int_t> *bilinear_weights_fp16;
-       Tap<float> *bilinear_weights_fp32;
+       std::unique_ptr<Tap<fp16_int_t>[]> bilinear_weights_fp16;
+       std::unique_ptr<Tap<float>[]> bilinear_weights_fp32;

 };
 ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, float zoom, float offset);
 
 };
 ScalingWeights calculate_scaling_weights(unsigned src_size, unsigned dst_size, float zoom, float offset);