/* lapsharp.c Copyright (c) 2003-2017 HandBrake Team This file is part of the HandBrake source code Homepage: . It may be used under the terms of the GNU General Public License v2. For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html */ #include "hb.h" #define LAPSHARP_STRENGTH_LUMA_DEFAULT 0.2 #define LAPSHARP_STRENGTH_CHROMA_DEFAULT 0.2 #define LAPSHARP_KERNELS 4 #define LAPSHARP_KERNEL_LUMA_DEFAULT 2 #define LAPSHARP_KERNEL_CHROMA_DEFAULT 2 typedef struct { double strength; // strength int kernel; // which kernel to use; kernels[kernel] } lapsharp_plane_context_t; typedef struct { const int *mem; const int size; const double coef; } kernel_t; // 4-neighbor Laplacian kernel (lap) // Sharpens vertical and horizontal edges, less effective on diagonals // size = 3, coef = 1.0 static const int kernel_lap[] = { 0, -1, 0, -1, 5, -1, 0, -1, 0 }; // Isotropic Laplacian kernel (isolap) // Minimial directionality, sharpens all edges similarly // size = 3, coef = 1.0 / 5 static const int kernel_isolap[] = { -1, -4, -1, -4, 25, -4, -1, -4, -1 }; // Laplacian of Gaussian kernel (log) // Slight noise and grain rejection // σ ~= 1 // size = 5, coef = 1.0 / 5 static const int kernel_log[] = { 0, 0, -1, 0, 0, 0, -1, -2, -1, 0, -1, -2, 21, -2, -1, 0, -1, -2, -1, 0, 0, 0, -1, 0, 0 }; // Isotropic Laplacian of Gaussian kernel (isolog) // Minimial directionality, plus noise and grain rejection // σ ~= 1.2 // size = 5, coef = 1.0 / 15 static const int kernel_isolog[] = { 0, -1, -1, -1, 0, -1, -3, -4, -3, -1, -1, -4, 55, -4, -1, -1, -3, -4, -3, -1, 0, -1, -1, -1, 0 }; static kernel_t kernels[] = { { kernel_lap, 3, 1.0 }, { kernel_isolap, 3, 1.0 / 5 }, { kernel_log, 5, 1.0 / 5 }, { kernel_isolog, 5, 1.0 / 15 } }; struct hb_filter_private_s { lapsharp_plane_context_t plane_ctx[3]; }; static int hb_lapsharp_init(hb_filter_object_t *filter, hb_filter_init_t *init); static int hb_lapsharp_work(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out); static void hb_lapsharp_close(hb_filter_object_t *filter); static const char hb_lapsharp_template[] = "y-strength=^"HB_FLOAT_REG"$:y-kernel=^"HB_ALL_REG"$:" "cb-strength=^"HB_FLOAT_REG"$:cb-kernel=^"HB_ALL_REG"$:" "cr-strength=^"HB_FLOAT_REG"$:cr-kernel=^"HB_ALL_REG"$"; hb_filter_object_t hb_filter_lapsharp = { .id = HB_FILTER_LAPSHARP, .enforce_order = 1, .name = "Sharpen (lapsharp)", .settings = NULL, .init = hb_lapsharp_init, .work = hb_lapsharp_work, .close = hb_lapsharp_close, .settings_template = hb_lapsharp_template, }; static void hb_lapsharp(const uint8_t *src, uint8_t *dst, const int width, const int height, const int stride, lapsharp_plane_context_t * ctx) { const kernel_t *kernel = &kernels[ctx->kernel]; // Sharpen using selected kernel const int offset_min = -((kernel->size - 1) / 2); const int offset_max = (kernel->size + 1) / 2; const int stride_border = (stride - width) / 2; int16_t pixel; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { if ((y < offset_max) || (y > height - offset_max) || (x < stride_border + offset_max) || (x > width + stride_border - offset_max)) { *(dst + stride*y + x) = *(src + stride*y + x); continue; } pixel = 0; for (int k = offset_min; k < offset_max; k++) { for (int j = offset_min; j < offset_max; j++) { pixel += kernel->mem[((j - offset_min) * kernel->size) + k - offset_min] * *(src + stride*(y + j) + (x + k)); } } pixel = (int16_t)(((pixel * kernel->coef) - *(src + stride*y + x)) * ctx->strength) + *(src + stride*y + x); pixel = pixel < 0 ? 0 : pixel; pixel = pixel > 255 ? 255 : pixel; *(dst + stride*y + x) = (uint8_t)(pixel); } } } static int hb_lapsharp_init(hb_filter_object_t *filter, hb_filter_init_t *init) { filter->private_data = calloc(sizeof(struct hb_filter_private_s), 1); hb_filter_private_t * pv = filter->private_data; char *kernel_string[3]; // Mark parameters unset for (int c = 0; c < 3; c++) { pv->plane_ctx[c].strength = -1; pv->plane_ctx[c].kernel = -1; kernel_string[c] = NULL; } // Read user parameters if (filter->settings != NULL) { hb_dict_t * dict = filter->settings; hb_dict_extract_double(&pv->plane_ctx[0].strength, dict, "y-strength"); hb_dict_extract_string(&kernel_string[0], dict, "y-kernel"); hb_dict_extract_double(&pv->plane_ctx[1].strength, dict, "cb-strength"); hb_dict_extract_string(&kernel_string[1], dict, "cb-kernel"); hb_dict_extract_double(&pv->plane_ctx[2].strength, dict, "cr-strength"); hb_dict_extract_string(&kernel_string[2], dict, "cr-kernel"); } // Convert kernel user string to internal id for (int c = 0; c < 3; c++) { lapsharp_plane_context_t * ctx = &pv->plane_ctx[c]; ctx->kernel = -1; if (kernel_string[c] == NULL) { continue; } if (!strcasecmp(kernel_string[c], "lap")) { ctx->kernel = 0; } else if (!strcasecmp(kernel_string[c], "isolap")) { ctx->kernel = 1; } else if (!strcasecmp(kernel_string[c], "log")) { ctx->kernel = 2; } else if (!strcasecmp(kernel_string[c], "isolog")) { ctx->kernel = 3; } free(kernel_string[c]); } // Cascade values // Cr not set; inherit Cb. Cb not set; inherit Y. Y not set; defaults. for (int c = 1; c < 3; c++) { lapsharp_plane_context_t * prev_ctx = &pv->plane_ctx[c - 1]; lapsharp_plane_context_t * ctx = &pv->plane_ctx[c]; if (ctx->strength == -1) ctx->strength = prev_ctx->strength; if (ctx->kernel == -1) ctx->kernel = prev_ctx->kernel; } for (int c = 0; c < 3; c++) { lapsharp_plane_context_t * ctx = &pv->plane_ctx[c]; // Replace unset values with defaults if (ctx->strength == -1) { ctx->strength = c ? LAPSHARP_STRENGTH_CHROMA_DEFAULT : LAPSHARP_STRENGTH_LUMA_DEFAULT; } if (ctx->kernel == -1) { ctx->kernel = c ? LAPSHARP_KERNEL_CHROMA_DEFAULT : LAPSHARP_KERNEL_LUMA_DEFAULT; } // Sanitize if (ctx->strength < 0) ctx->strength = 0; if (ctx->strength > 1.5) ctx->strength = 1.5; if ((ctx->kernel < 0) || (ctx->kernel >= LAPSHARP_KERNELS)) { ctx->kernel = c ? LAPSHARP_KERNEL_CHROMA_DEFAULT : LAPSHARP_KERNEL_LUMA_DEFAULT; } } return 0; } static void hb_lapsharp_close(hb_filter_object_t * filter) { hb_filter_private_t *pv = filter->private_data; if (pv == NULL) { return; } free(pv); filter->private_data = NULL; } static int hb_lapsharp_work(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out) { hb_filter_private_t *pv = filter->private_data; hb_buffer_t *in = *buf_in, *out; if (in->s.flags & HB_BUF_FLAG_EOF) { *buf_out = in; *buf_in = NULL; return HB_FILTER_DONE; } out = hb_frame_buffer_init(in->f.fmt, in->f.width, in->f.height); int c; for (c = 0; c < 3; c++) { lapsharp_plane_context_t * ctx = &pv->plane_ctx[c]; hb_lapsharp(in->plane[c].data, out->plane[c].data, in->plane[c].width, in->plane[c].height, in->plane[c].stride, ctx); } out->s = in->s; *buf_out = out; return HB_FILTER_OK; }