/* unsharp.c Copyright (c) 2002 Rémi Guyomarch Copyright (c) 2003-2019 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 "handbrake/handbrake.h" #define UNSHARP_STRENGTH_LUMA_DEFAULT 0.25 #define UNSHARP_SIZE_LUMA_DEFAULT 7 #define UNSHARP_STRENGTH_CHROMA_DEFAULT 0.25 #define UNSHARP_SIZE_CHROMA_DEFAULT 7 #define UNSHARP_SIZE_MIN 3 #define UNSHARP_SIZE_MAX 63 typedef struct { int pix_fmt; // source pixel format int width; // source video width double strength; // strength int size; // pixel context region width (must be odd) int steps; int amount; int scalebits; int32_t halfscale; } unsharp_plane_context_t; typedef struct { uint32_t * SC[UNSHARP_SIZE_MAX - 1]; } unsharp_thread_context_t; typedef unsharp_thread_context_t unsharp_thread_context3_t[3]; struct hb_filter_private_s { unsharp_plane_context_t plane_ctx[3]; unsharp_thread_context3_t * thread_ctx; int threads; hb_filter_init_t input; hb_filter_init_t output; }; static int unsharp_init(hb_filter_object_t *filter, hb_filter_init_t *init); static int unsharp_init_thread(hb_filter_object_t *filter, int threads); static int unsharp_work(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out); static int unsharp_work_thread(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out, int thread); static void unsharp_close(hb_filter_object_t *filter); static const char unsharp_template[] = "y-strength=^"HB_FLOAT_REG"$:y-size=^"HB_INT_REG"$:" "cb-strength=^"HB_FLOAT_REG"$:cb-size=^"HB_INT_REG"$:" "cr-strength=^"HB_FLOAT_REG"$:cr-size=^"HB_INT_REG"$"; hb_filter_object_t hb_filter_unsharp = { .id = HB_FILTER_UNSHARP, .enforce_order = 1, .name = "Sharpen (unsharp)", .settings = NULL, .init = unsharp_init, .init_thread = unsharp_init_thread, .work = unsharp_work, .work_thread = unsharp_work_thread, .close = unsharp_close, .settings_template = unsharp_template, }; static void unsharp(const uint8_t *src, uint8_t *dst, const int width, const int height, const int stride, unsharp_plane_context_t * ctx, unsharp_thread_context_t * tctx) { uint32_t **SC = tctx->SC; uint32_t SR[UNSHARP_SIZE_MAX - 1], Tmp1, Tmp2; const uint8_t *src2 = src; // avoid gcc warning int32_t res; int x, y, z; int amount = ctx->amount; int steps = ctx->steps; int scalebits = ctx->scalebits; int32_t halfscale = ctx->halfscale; if (!amount) { if (src != dst) { memcpy(dst, src, stride*height); } return; } for (y = 0; y < 2 * steps; y++) { memset(SC[y], 0, sizeof(SC[y][0]) * (width + 2 * steps)); } for (y = -steps; y < height + steps; y++) { if (y < height) { src2 = src; } memset(SR, 0, sizeof(SR[0]) * (2 * steps - 1)); for (x = -steps; x < width + steps; x++) { Tmp1 = x <= 0 ? src2[0] : x >= width ? src2[width - 1] : src2[x]; for (z = 0; z < steps * 2; z += 2) { Tmp2 = SR[z + 0] + Tmp1; SR[z + 0] = Tmp1; Tmp1 = SR[z + 1] + Tmp2; SR[z + 1] = Tmp2; } for (z = 0; z < steps * 2; z += 2) { Tmp2 = SC[z + 0][x + steps] + Tmp1; SC[z + 0][x + steps] = Tmp1; Tmp1 = SC[z + 1][x + steps] + Tmp2; SC[z + 1][x + steps] = Tmp2; } if (x >= steps && y >= steps) { const uint8_t * srx = src - steps * stride + x - steps; uint8_t * dsx = dst - steps * stride + x - steps; res = (int32_t)*srx + ((((int32_t)*srx - (int32_t)((Tmp1 + halfscale) >> scalebits)) * amount) >> 16); *dsx = res > 255 ? 255 : res < 0 ? 0 : (uint8_t)res; } } if (y >= 0) { dst += stride; src += stride; } } } static int unsharp_init(hb_filter_object_t *filter, hb_filter_init_t *init) { filter->private_data = calloc(sizeof(struct hb_filter_private_s), 1); if (filter->private_data == NULL) { hb_error("Unsharp calloc failed"); return -1; } hb_filter_private_t * pv = filter->private_data; pv->input = *init; // Mark parameters unset for (int c = 0; c < 3; c++) { pv->plane_ctx[c].strength = -1; pv->plane_ctx[c].size = -1; } // 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_int(&pv->plane_ctx[0].size, dict, "y-size"); hb_dict_extract_double(&pv->plane_ctx[1].strength, dict, "cb-strength"); hb_dict_extract_int(&pv->plane_ctx[1].size, dict, "cb-size"); hb_dict_extract_double(&pv->plane_ctx[2].strength, dict, "cr-strength"); hb_dict_extract_int(&pv->plane_ctx[2].size, dict, "cr-size"); } // Cascade values // Cr not set; inherit Cb. Cb not set; inherit Y. Y not set; defaults. for (int c = 1; c < 3; c++) { unsharp_plane_context_t * prev_ctx = &pv->plane_ctx[c - 1]; unsharp_plane_context_t * ctx = &pv->plane_ctx[c]; if (ctx->strength == -1) ctx->strength = prev_ctx->strength; if (ctx->size == -1) ctx->size = prev_ctx->size; } for (int c = 0; c < 3; c++) { unsharp_plane_context_t * ctx = &pv->plane_ctx[c]; ctx->width = init->geometry.width; // Replace unset values with defaults if (ctx->strength == -1) { ctx->strength = c ? UNSHARP_STRENGTH_CHROMA_DEFAULT : UNSHARP_STRENGTH_LUMA_DEFAULT; } if (ctx->size == -1) { ctx->size = c ? UNSHARP_SIZE_CHROMA_DEFAULT : UNSHARP_SIZE_LUMA_DEFAULT; } // Sanitize if (ctx->strength < 0) ctx->strength = 0; if (ctx->strength > 1.5) ctx->strength = 1.5; if (ctx->size % 2 == 0) ctx->size--; if (ctx->size < UNSHARP_SIZE_MIN) ctx->size = UNSHARP_SIZE_MIN; if (ctx->size > UNSHARP_SIZE_MAX) ctx->size = UNSHARP_SIZE_MAX; ctx->amount = ctx->strength * 65536.0; ctx->steps = ctx->size / 2; ctx->scalebits = ctx->steps * 4; ctx->halfscale = 1 << (ctx->scalebits - 1); } if (unsharp_init_thread(filter, 1) < 0) { unsharp_close(filter); return -1; } pv->output = *init; return 0; } static void unsharp_thread_close(hb_filter_private_t *pv) { int c, z; for (c = 0; c < 3; c++) { unsharp_plane_context_t * ctx = &pv->plane_ctx[c]; for (int t = 0; t < pv->threads; t++) { unsharp_thread_context_t * tctx = &pv->thread_ctx[t][c]; for (z = 0; z < 2 * ctx->steps; z++) { free(tctx->SC[z]); tctx->SC[z] = NULL; } } } free(pv->thread_ctx); } static int unsharp_init_thread(hb_filter_object_t *filter, int threads) { hb_filter_private_t * pv = filter->private_data; unsharp_thread_close(pv); pv->thread_ctx = calloc(threads, sizeof(unsharp_thread_context3_t)); pv->threads = threads; for (int c = 0; c < 3; c++) { unsharp_plane_context_t * ctx = &pv->plane_ctx[c]; int w = hb_image_width(ctx->pix_fmt, ctx->width, c); for (int t = 0; t < threads; t++) { unsharp_thread_context_t * tctx = &pv->thread_ctx[t][c]; int z; for (z = 0; z < 2 * ctx->steps; z++) { tctx->SC[z] = malloc(sizeof(*(tctx->SC[z])) * (w + 2 * ctx->steps)); if (tctx->SC[z] == NULL) { hb_error("Unsharp calloc failed"); unsharp_close(filter); return -1; } } } } return 0; } static void unsharp_close(hb_filter_object_t * filter) { hb_filter_private_t *pv = filter->private_data; if (pv == NULL) { return; } unsharp_thread_close(pv); free(pv); filter->private_data = NULL; } static int unsharp_work_thread(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out, int thread) { 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(pv->output.pix_fmt, in->f.width, in->f.height); out->f.color_prim = pv->output.color_prim; out->f.color_transfer = pv->output.color_transfer; out->f.color_matrix = pv->output.color_matrix; out->f.color_range = pv->output.color_range ; int c; for (c = 0; c < 3; c++) { unsharp_plane_context_t * ctx = &pv->plane_ctx[c]; unsharp_thread_context_t * tctx = &pv->thread_ctx[thread][c]; unsharp(in->plane[c].data, out->plane[c].data, in->plane[c].width, in->plane[c].height, in->plane[c].stride, ctx, tctx); } out->s = in->s; *buf_out = out; return HB_FILTER_OK; } static int unsharp_work(hb_filter_object_t *filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out) { return unsharp_work_thread(filter, buf_in, buf_out, 0); }