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See the * vivi.c source for the copyright information of those functions. * * Copyright 2014 Cisco Systems, Inc. and/or its affiliates. All rights reserved. * * This program is free software; you may redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include <linux/module.h> #include <media/v4l2-tpg.h> /* Must remain in sync with enum tpg_pattern */ const char * const tpg_pattern_strings[] = { "75% Colorbar", "100% Colorbar", "CSC Colorbar", "Horizontal 100% Colorbar", "100% Color Squares", "100% Black", "100% White", "100% Red", "100% Green", "100% Blue", "16x16 Checkers", "2x2 Checkers", "1x1 Checkers", "2x2 Red/Green Checkers", "1x1 Red/Green Checkers", "Alternating Hor Lines", "Alternating Vert Lines", "One Pixel Wide Cross", "Two Pixels Wide Cross", "Ten Pixels Wide Cross", "Gray Ramp", "Noise", NULL }; EXPORT_SYMBOL_GPL(tpg_pattern_strings); /* Must remain in sync with enum tpg_aspect */ const char * const tpg_aspect_strings[] = { "Source Width x Height", "4x3", "14x9", "16x9", "16x9 Anamorphic", NULL }; EXPORT_SYMBOL_GPL(tpg_aspect_strings); /* * Sine table: sin[0] = 127 * sin(-180 degrees) * sin[128] = 127 * sin(0 degrees) * sin[256] = 127 * sin(180 degrees) */ static const s8 sin[257] = { 0, -4, -7, -11, -13, -18, -20, -22, -26, -29, -33, -35, -37, -41, -43, -48, -50, -52, -56, -58, -62, -63, -65, -69, -71, -75, -76, -78, -82, -83, -87, -88, -90, -93, -94, -97, -99, -101, -103, -104, -107, -108, -110, -111, -112, -114, -115, -117, -118, -119, -120, -121, -122, -123, -123, -124, -125, -125, -126, -126, -127, -127, -127, -127, -127, -127, -127, -127, -126, -126, -125, -125, -124, -124, -123, -122, -121, -120, -119, -118, -117, -116, -114, -113, -111, -110, -109, -107, -105, -103, -101, -100, -97, -96, -93, -91, -90, -87, -85, -82, -80, -76, -75, -73, -69, -67, -63, -62, -60, -56, -54, -50, -48, -46, -41, -39, -35, -33, -31, -26, -24, -20, -18, -15, -11, -9, -4, -2, 0, 2, 4, 9, 11, 15, 18, 20, 24, 26, 31, 33, 35, 39, 41, 46, 48, 50, 54, 56, 60, 62, 64, 67, 69, 73, 75, 76, 80, 82, 85, 87, 90, 91, 93, 96, 97, 100, 101, 103, 105, 107, 109, 110, 111, 113, 114, 116, 117, 118, 119, 120, 121, 122, 123, 124, 124, 125, 125, 126, 126, 127, 127, 127, 127, 127, 127, 127, 127, 126, 126, 125, 125, 124, 123, 123, 122, 121, 120, 119, 118, 117, 115, 114, 112, 111, 110, 108, 107, 104, 103, 101, 99, 97, 94, 93, 90, 88, 87, 83, 82, 78, 76, 75, 71, 69, 65, 64, 62, 58, 56, 52, 50, 48, 43, 41, 37, 35, 33, 29, 26, 22, 20, 18, 13, 11, 7, 4, 0, }; #define cos(idx) sin[((idx) + 64) % sizeof(sin)] /* Global font descriptor */ static const u8 *font8x16; void tpg_set_font(const u8 *f) { font8x16 = f; } EXPORT_SYMBOL_GPL(tpg_set_font); void tpg_init(struct tpg_data *tpg, unsigned w, unsigned h) { memset(tpg, 0, sizeof(*tpg)); tpg->scaled_width = tpg->src_width = w; tpg->src_height = tpg->buf_height = h; tpg->crop.width = tpg->compose.width = w; tpg->crop.height = tpg->compose.height = h; tpg->recalc_colors = true; tpg->recalc_square_border = true; tpg->brightness = 128; tpg->contrast = 128; tpg->saturation = 128; tpg->hue = 0; tpg->mv_hor_mode = TPG_MOVE_NONE; tpg->mv_vert_mode = TPG_MOVE_NONE; tpg->field = V4L2_FIELD_NONE; tpg_s_fourcc(tpg, V4L2_PIX_FMT_RGB24); tpg->colorspace = V4L2_COLORSPACE_SRGB; tpg->perc_fill = 100; tpg->hsv_enc = V4L2_HSV_ENC_180; } EXPORT_SYMBOL_GPL(tpg_init); int tpg_alloc(struct tpg_data *tpg, unsigned max_w) { unsigned pat; unsigned plane; tpg->max_line_width = max_w; for (pat = 0; pat < TPG_MAX_PAT_LINES; pat++) { for (plane = 0; plane < TPG_MAX_PLANES; plane++) { unsigned pixelsz = plane ? 2 : 4; tpg->lines[pat][plane] = vzalloc(max_w * 2 * pixelsz); if (!tpg->lines[pat][plane]) return -ENOMEM; if (plane == 0) continue; tpg->downsampled_lines[pat][plane] = vzalloc(max_w * 2 * pixelsz); if (!tpg->downsampled_lines[pat][plane]) return -ENOMEM; } } for (plane = 0; plane < TPG_MAX_PLANES; plane++) { unsigned pixelsz = plane ? 2 : 4; tpg->contrast_line[plane] = vzalloc(max_w * pixelsz); if (!tpg->contrast_line[plane]) return -ENOMEM; tpg->black_line[plane] = vzalloc(max_w * pixelsz); if (!tpg->black_line[plane]) return -ENOMEM; tpg->random_line[plane] = vzalloc(max_w * 2 * pixelsz); if (!tpg->random_line[plane]) return -ENOMEM; } return 0; } EXPORT_SYMBOL_GPL(tpg_alloc); void tpg_free(struct tpg_data *tpg) { unsigned pat; unsigned plane; for (pat = 0; pat < TPG_MAX_PAT_LINES; pat++) for (plane = 0; plane < TPG_MAX_PLANES; plane++) { vfree(tpg->lines[pat][plane]); tpg->lines[pat][plane] = NULL; if (plane == 0) continue; vfree(tpg->downsampled_lines[pat][plane]); tpg->downsampled_lines[pat][plane] = NULL; } for (plane = 0; plane < TPG_MAX_PLANES; plane++) { vfree(tpg->contrast_line[plane]); vfree(tpg->black_line[plane]); vfree(tpg->random_line[plane]); tpg->contrast_line[plane] = NULL; tpg->black_line[plane] = NULL; tpg->random_line[plane] = NULL; } } EXPORT_SYMBOL_GPL(tpg_free); bool tpg_s_fourcc(struct tpg_data *tpg, u32 fourcc) { tpg->fourcc = fourcc; tpg->planes = 1; tpg->buffers = 1; tpg->recalc_colors = true; tpg->interleaved = false; tpg->vdownsampling[0] = 1; tpg->hdownsampling[0] = 1; tpg->hmask[0] = ~0; tpg->hmask[1] = ~0; tpg->hmask[2] = ~0; switch (fourcc) { case V4L2_PIX_FMT_SBGGR8: case V4L2_PIX_FMT_SGBRG8: case V4L2_PIX_FMT_SGRBG8: case V4L2_PIX_FMT_SRGGB8: case V4L2_PIX_FMT_SBGGR10: case V4L2_PIX_FMT_SGBRG10: case V4L2_PIX_FMT_SGRBG10: case V4L2_PIX_FMT_SRGGB10: case V4L2_PIX_FMT_SBGGR12: case V4L2_PIX_FMT_SGBRG12: case V4L2_PIX_FMT_SGRBG12: case V4L2_PIX_FMT_SRGGB12: tpg->interleaved = true; tpg->vdownsampling[1] = 1; tpg->hdownsampling[1] = 1; tpg->planes = 2; /* fall through */ case V4L2_PIX_FMT_RGB332: case V4L2_PIX_FMT_RGB565: case V4L2_PIX_FMT_RGB565X: case V4L2_PIX_FMT_RGB444: case V4L2_PIX_FMT_XRGB444: case V4L2_PIX_FMT_ARGB444: case V4L2_PIX_FMT_RGB555: case V4L2_PIX_FMT_XRGB555: case V4L2_PIX_FMT_ARGB555: case V4L2_PIX_FMT_RGB555X: case V4L2_PIX_FMT_XRGB555X: case V4L2_PIX_FMT_ARGB555X: case V4L2_PIX_FMT_BGR666: case V4L2_PIX_FMT_RGB24: case V4L2_PIX_FMT_BGR24: case V4L2_PIX_FMT_RGB32: case V4L2_PIX_FMT_BGR32: case V4L2_PIX_FMT_XRGB32: case V4L2_PIX_FMT_XBGR32: case V4L2_PIX_FMT_ARGB32: case V4L2_PIX_FMT_ABGR32: tpg->color_enc = TGP_COLOR_ENC_RGB; break; case V4L2_PIX_FMT_GREY: case V4L2_PIX_FMT_Y16: case V4L2_PIX_FMT_Y16_BE: tpg->color_enc = TGP_COLOR_ENC_LUMA; break; case V4L2_PIX_FMT_YUV444: case V4L2_PIX_FMT_YUV555: case V4L2_PIX_FMT_YUV565: case V4L2_PIX_FMT_YUV32: tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_YUV420M: case V4L2_PIX_FMT_YVU420M: tpg->buffers = 3; /* fall through */ case V4L2_PIX_FMT_YUV420: case V4L2_PIX_FMT_YVU420: tpg->vdownsampling[1] = 2; tpg->vdownsampling[2] = 2; tpg->hdownsampling[1] = 2; tpg->hdownsampling[2] = 2; tpg->planes = 3; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_YUV422M: case V4L2_PIX_FMT_YVU422M: tpg->buffers = 3; /* fall through */ case V4L2_PIX_FMT_YUV422P: tpg->vdownsampling[1] = 1; tpg->vdownsampling[2] = 1; tpg->hdownsampling[1] = 2; tpg->hdownsampling[2] = 2; tpg->planes = 3; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_NV16M: case V4L2_PIX_FMT_NV61M: tpg->buffers = 2; /* fall through */ case V4L2_PIX_FMT_NV16: case V4L2_PIX_FMT_NV61: tpg->vdownsampling[1] = 1; tpg->hdownsampling[1] = 1; tpg->hmask[1] = ~1; tpg->planes = 2; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_NV12M: case V4L2_PIX_FMT_NV21M: tpg->buffers = 2; /* fall through */ case V4L2_PIX_FMT_NV12: case V4L2_PIX_FMT_NV21: tpg->vdownsampling[1] = 2; tpg->hdownsampling[1] = 1; tpg->hmask[1] = ~1; tpg->planes = 2; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_YUV444M: case V4L2_PIX_FMT_YVU444M: tpg->buffers = 3; tpg->planes = 3; tpg->vdownsampling[1] = 1; tpg->vdownsampling[2] = 1; tpg->hdownsampling[1] = 1; tpg->hdownsampling[2] = 1; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_NV24: case V4L2_PIX_FMT_NV42: tpg->vdownsampling[1] = 1; tpg->hdownsampling[1] = 1; tpg->planes = 2; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_UYVY: case V4L2_PIX_FMT_YVYU: case V4L2_PIX_FMT_VYUY: tpg->hmask[0] = ~1; tpg->color_enc = TGP_COLOR_ENC_YCBCR; break; case V4L2_PIX_FMT_HSV24: case V4L2_PIX_FMT_HSV32: tpg->color_enc = TGP_COLOR_ENC_HSV; break; default: return false; } switch (fourcc) { case V4L2_PIX_FMT_GREY: case V4L2_PIX_FMT_RGB332: tpg->twopixelsize[0] = 2; break; case V4L2_PIX_FMT_RGB565: case V4L2_PIX_FMT_RGB565X: case V4L2_PIX_FMT_RGB444: case V4L2_PIX_FMT_XRGB444: case V4L2_PIX_FMT_ARGB444: case V4L2_PIX_FMT_RGB555: case V4L2_PIX_FMT_XRGB555: case V4L2_PIX_FMT_ARGB555: case V4L2_PIX_FMT_RGB555X: case V4L2_PIX_FMT_XRGB555X: case V4L2_PIX_FMT_ARGB555X: case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_UYVY: case V4L2_PIX_FMT_YVYU: case V4L2_PIX_FMT_VYUY: case V4L2_PIX_FMT_YUV444: case V4L2_PIX_FMT_YUV555: case V4L2_PIX_FMT_YUV565: case V4L2_PIX_FMT_Y16: case V4L2_PIX_FMT_Y16_BE: tpg->twopixelsize[0] = 2 * 2; break; case V4L2_PIX_FMT_RGB24: case V4L2_PIX_FMT_BGR24: case V4L2_PIX_FMT_HSV24: tpg->twopixelsize[0] = 2 * 3; break; case V4L2_PIX_FMT_BGR666: case V4L2_PIX_FMT_RGB32: case V4L2_PIX_FMT_BGR32: case V4L2_PIX_FMT_XRGB32: case V4L2_PIX_FMT_XBGR32: case V4L2_PIX_FMT_ARGB32: case V4L2_PIX_FMT_ABGR32: case V4L2_PIX_FMT_YUV32: case V4L2_PIX_FMT_HSV32: tpg->twopixelsize[0] = 2 * 4; break; case V4L2_PIX_FMT_NV12: case V4L2_PIX_FMT_NV21: case V4L2_PIX_FMT_NV12M: case V4L2_PIX_FMT_NV21M: case V4L2_PIX_FMT_NV16: case V4L2_PIX_FMT_NV61: case V4L2_PIX_FMT_NV16M: case V4L2_PIX_FMT_NV61M: case V4L2_PIX_FMT_SBGGR8: case V4L2_PIX_FMT_SGBRG8: case V4L2_PIX_FMT_SGRBG8: case V4L2_PIX_FMT_SRGGB8: tpg->twopixelsize[0] = 2; tpg->twopixelsize[1] = 2; break; case V4L2_PIX_FMT_SRGGB10: case V4L2_PIX_FMT_SGRBG10: case V4L2_PIX_FMT_SGBRG10: case V4L2_PIX_FMT_SBGGR10: case V4L2_PIX_FMT_SRGGB12: case V4L2_PIX_FMT_SGRBG12: case V4L2_PIX_FMT_SGBRG12: case V4L2_PIX_FMT_SBGGR12: tpg->twopixelsize[0] = 4; tpg->twopixelsize[1] = 4; break; case V4L2_PIX_FMT_YUV444M: case V4L2_PIX_FMT_YVU444M: case V4L2_PIX_FMT_YUV422M: case V4L2_PIX_FMT_YVU422M: case V4L2_PIX_FMT_YUV422P: case V4L2_PIX_FMT_YUV420: case V4L2_PIX_FMT_YVU420: case V4L2_PIX_FMT_YUV420M: case V4L2_PIX_FMT_YVU420M: tpg->twopixelsize[0] = 2; tpg->twopixelsize[1] = 2; tpg->twopixelsize[2] = 2; break; case V4L2_PIX_FMT_NV24: case V4L2_PIX_FMT_NV42: tpg->twopixelsize[0] = 2; tpg->twopixelsize[1] = 4; break; } return true; } EXPORT_SYMBOL_GPL(tpg_s_fourcc); void tpg_s_crop_compose(struct tpg_data *tpg, const struct v4l2_rect *crop, const struct v4l2_rect *compose) { tpg->crop = *crop; tpg->compose = *compose; tpg->scaled_width = (tpg->src_width * tpg->compose.width + tpg->crop.width - 1) / tpg->crop.width; tpg->scaled_width &= ~1; if (tpg->scaled_width > tpg->max_line_width) tpg->scaled_width = tpg->max_line_width; if (tpg->scaled_width < 2) tpg->scaled_width = 2; tpg->recalc_lines = true; } EXPORT_SYMBOL_GPL(tpg_s_crop_compose); void tpg_reset_source(struct tpg_data *tpg, unsigned width, unsigned height, u32 field) { unsigned p; tpg->src_width = width; tpg->src_height = height; tpg->field = field; tpg->buf_height = height; if (V4L2_FIELD_HAS_T_OR_B(field)) tpg->buf_height /= 2; tpg->scaled_width = width; tpg->crop.top = tpg->crop.left = 0; tpg->crop.width = width; tpg->crop.height = height; tpg->compose.top = tpg->compose.left = 0; tpg->compose.width = width; tpg->compose.height = tpg->buf_height; for (p = 0; p < tpg->planes; p++) tpg->bytesperline[p] = (width * tpg->twopixelsize[p]) / (2 * tpg->hdownsampling[p]); tpg->recalc_square_border = true; } EXPORT_SYMBOL_GPL(tpg_reset_source); static enum tpg_color tpg_get_textbg_color(struct tpg_data *tpg) { switch (tpg->pattern) { case TPG_PAT_BLACK: return TPG_COLOR_100_WHITE; case TPG_PAT_CSC_COLORBAR: return TPG_COLOR_CSC_BLACK; default: return TPG_COLOR_100_BLACK; } } static enum tpg_color tpg_get_textfg_color(struct tpg_data *tpg) { switch (tpg->pattern) { case TPG_PAT_75_COLORBAR: case TPG_PAT_CSC_COLORBAR: return TPG_COLOR_CSC_WHITE; case TPG_PAT_BLACK: return TPG_COLOR_100_BLACK; default: return TPG_COLOR_100_WHITE; } } static inline int rec709_to_linear(int v) { v = clamp(v, 0, 0xff0); return tpg_rec709_to_linear[v]; } static inline int linear_to_rec709(int v) { v = clamp(v, 0, 0xff0); return tpg_linear_to_rec709[v]; } static void color_to_hsv(struct tpg_data *tpg, int r, int g, int b, int *h, int *s, int *v) { int max_rgb, min_rgb, diff_rgb; int aux; int third; int third_size; r >>= 4; g >>= 4; b >>= 4; /* Value */ max_rgb = max3(r, g, b); *v = max_rgb; if (!max_rgb) { *h = 0; *s = 0; return; } /* Saturation */ min_rgb = min3(r, g, b); diff_rgb = max_rgb - min_rgb; aux = 255 * diff_rgb; aux += max_rgb / 2; aux /= max_rgb; *s = aux; if (!aux) { *h = 0; return; } third_size = (tpg->real_hsv_enc == V4L2_HSV_ENC_180) ? 60 : 85; /* Hue */ if (max_rgb == r) { aux = g - b; third = 0; } else if (max_rgb == g) { aux = b - r; third = third_size; } else { aux = r - g; third = third_size * 2; } aux *= third_size / 2; aux += diff_rgb / 2; aux /= diff_rgb; aux += third; /* Clamp Hue */ if (tpg->real_hsv_enc == V4L2_HSV_ENC_180) { if (aux < 0) aux += 180; else if (aux > 180) aux -= 180; } else { aux = aux & 0xff; } *h = aux; } static void rgb2ycbcr(const int m[3][3], int r, int g, int b, int y_offset, int *y, int *cb, int *cr) { *y = ((m[0][0] * r + m[0][1] * g + m[0][2] * b) >> 16) + (y_offset << 4); *cb = ((m[1][0] * r + m[1][1] * g + m[1][2] * b) >> 16) + (128 << 4); *cr = ((m[2][0] * r + m[2][1] * g + m[2][2] * b) >> 16) + (128 << 4); } static void color_to_ycbcr(struct tpg_data *tpg, int r, int g, int b, int *y, int *cb, int *cr) { #define COEFF(v, r) ((int)(0.5 + (v) * (r) * 256.0)) static const int bt601[3][3] = { { COEFF(0.299, 219), COEFF(0.587, 219), COEFF(0.114, 219) }, { COEFF(-0.1687, 224), COEFF(-0.3313, 224), COEFF(0.5, 224) }, { COEFF(0.5, 224), COEFF(-0.4187, 224), COEFF(-0.0813, 224) }, }; static const int bt601_full[3][3] = { { COEFF(0.299, 255), COEFF(0.587, 255), COEFF(0.114, 255) }, { COEFF(-0.1687, 255), COEFF(-0.3313, 255), COEFF(0.5, 255) }, { COEFF(0.5, 255), COEFF(-0.4187, 255), COEFF(-0.0813, 255) }, }; static const int rec709[3][3] = { { COEFF(0.2126, 219), COEFF(0.7152, 219), COEFF(0.0722, 219) }, { COEFF(-0.1146, 224), COEFF(-0.3854, 224), COEFF(0.5, 224) }, { COEFF(0.5, 224), COEFF(-0.4542, 224), COEFF(-0.0458, 224) }, }; static const int rec709_full[3][3] = { { COEFF(0.2126, 255), COEFF(0.7152, 255), COEFF(0.0722, 255) }, { COEFF(-0.1146, 255), COEFF(-0.3854, 255), COEFF(0.5, 255) }, { COEFF(0.5, 255), COEFF(-0.4542, 255), COEFF(-0.0458, 255) }, }; static const int smpte240m[3][3] = { { COEFF(0.212, 219), COEFF(0.701, 219), COEFF(0.087, 219) }, { COEFF(-0.116, 224), COEFF(-0.384, 224), COEFF(0.5, 224) }, { COEFF(0.5, 224), COEFF(-0.445, 224), COEFF(-0.055, 224) }, }; static const int smpte240m_full[3][3] = { { COEFF(0.212, 255), COEFF(0.701, 255), COEFF(0.087, 255) }, { COEFF(-0.116, 255), COEFF(-0.384, 255), COEFF(0.5, 255) }, { COEFF(0.5, 255), COEFF(-0.445, 255), COEFF(-0.055, 255) }, }; static const int bt2020[3][3] = { { COEFF(0.2627, 219), COEFF(0.6780, 219), COEFF(0.0593, 219) }, { COEFF(-0.1396, 224), COEFF(-0.3604, 224), COEFF(0.5, 224) }, { COEFF(0.5, 224), COEFF(-0.4598, 224), COEFF(-0.0402, 224) }, }; static const int bt2020_full[3][3] = { { COEFF(0.2627, 255), COEFF(0.6780, 255), COEFF(0.0593, 255) }, { COEFF(-0.1396, 255), COEFF(-0.3604, 255), COEFF(0.5, 255) }, { COEFF(0.5, 255), COEFF(-0.4598, 255), COEFF(-0.0402, 255) }, }; static const int bt2020c[4] = { COEFF(1.0 / 1.9404, 224), COEFF(1.0 / 1.5816, 224), COEFF(1.0 / 1.7184, 224), COEFF(1.0 / 0.9936, 224), }; static const int bt2020c_full[4] = { COEFF(1.0 / 1.9404, 255), COEFF(1.0 / 1.5816, 255), COEFF(1.0 / 1.7184, 255), COEFF(1.0 / 0.9936, 255), }; bool full = tpg->real_quantization == V4L2_QUANTIZATION_FULL_RANGE; unsigned y_offset = full ? 0 : 16; int lin_y, yc; switch (tpg->real_ycbcr_enc) { case V4L2_YCBCR_ENC_601: rgb2ycbcr(full ? bt601_full : bt601, r, g, b, y_offset, y, cb, cr); break; case V4L2_YCBCR_ENC_XV601: /* Ignore quantization range, there is only one possible * Y'CbCr encoding. */ rgb2ycbcr(bt601, r, g, b, 16, y, cb, cr); break; case V4L2_YCBCR_ENC_XV709: /* Ignore quantization range, there is only one possible * Y'CbCr encoding. */ rgb2ycbcr(rec709, r, g, b, 16, y, cb, cr); break; case V4L2_YCBCR_ENC_BT2020: rgb2ycbcr(full ? bt2020_full : bt2020, r, g, b, y_offset, y, cb, cr); break; case V4L2_YCBCR_ENC_BT2020_CONST_LUM: lin_y = (COEFF(0.2627, 255) * rec709_to_linear(r) + COEFF(0.6780, 255) * rec709_to_linear(g) + COEFF(0.0593, 255) * rec709_to_linear(b)) >> 16; yc = linear_to_rec709(lin_y); *y = full ? yc : (yc * 219) / 255 + (16 << 4); if (b <= yc) *cb = (((b - yc) * (full ? bt2020c_full[0] : bt2020c[0])) >> 16) + (128 << 4); else *cb = (((b - yc) * (full ? bt2020c_full[1] : bt2020c[1])) >> 16) + (128 << 4); if (r <= yc) *cr = (((r - yc) * (full ? bt2020c_full[2] : bt2020c[2])) >> 16) + (128 << 4); else *cr = (((r - yc) * (full ? bt2020c_full[3] : bt2020c[3])) >> 16) + (128 << 4); break; case V4L2_YCBCR_ENC_SMPTE240M: rgb2ycbcr(full ? smpte240m_full : smpte240m, r, g, b, y_offset, y, cb, cr); break; case V4L2_YCBCR_ENC_709: default: rgb2ycbcr(full ? rec709_full : rec709, r, g, b, y_offset, y, cb, cr); break; } } static void ycbcr2rgb(const int m[3][3], int y, int cb, int cr, int y_offset, int *r, int *g, int *b) { y -= y_offset << 4; cb -= 128 << 4; cr -= 128 << 4; *r = m[0][0] * y + m[0][1] * cb + m[0][2] * cr; *g = m[1][0] * y + m[1][1] * cb + m[1][2] * cr; *b = m[2][0] * y + m[2][1] * cb + m[2][2] * cr; *r = clamp(*r >> 12, 0, 0xff0); *g = clamp(*g >> 12, 0, 0xff0); *b = clamp(*b >> 12, 0, 0xff0); } static void ycbcr_to_color(struct tpg_data *tpg, int y, int cb, int cr, int *r, int *g, int *b) { #undef COEFF #define COEFF(v, r) ((int)(0.5 + (v) * ((255.0 * 255.0 * 16.0) / (r)))) static const int bt601[3][3] = { { COEFF(1, 219), COEFF(0, 224), COEFF(1.4020, 224) }, { COEFF(1, 219), COEFF(-0.3441, 224), COEFF(-0.7141, 224) }, { COEFF(1, 219), COEFF(1.7720, 224), COEFF(0, 224) }, }; static const int bt601_full[3][3] = { { COEFF(1, 255), COEFF(0, 255), COEFF(1.4020, 255) }, { COEFF(1, 255), COEFF(-0.3441, 255), COEFF(-0.7141, 255) }, { COEFF(1, 255), COEFF(1.7720, 255), COEFF(0, 255) }, }; static const int rec709[3][3] = { { COEFF(1, 219), COEFF(0, 224), COEFF(1.5748, 224) }, { COEFF(1, 219), COEFF(-0.1873, 224), COEFF(-0.4681, 224) }, { COEFF(1, 219), COEFF(1.8556, 224), COEFF(0, 224) }, }; static const int rec709_full[3][3] = { { COEFF(1, 255), COEFF(0, 255), COEFF(1.5748, 255) }, { COEFF(1, 255), COEFF(-0.1873, 255), COEFF(-0.4681, 255) }, { COEFF(1, 255), COEFF(1.8556, 255), COEFF(0, 255) }, }; static const int smpte240m[3][3] = { { COEFF(1, 219), COEFF(0, 224), COEFF(1.5756, 224) }, { COEFF(1, 219), COEFF(-0.2253, 224), COEFF(-0.4767, 224) }, { COEFF(1, 219), COEFF(1.8270, 224), COEFF(0, 224) }, }; static const int smpte240m_full[3][3] = { { COEFF(1, 255), COEFF(0, 255), COEFF(1.5756, 255) }, { COEFF(1, 255), COEFF(-0.2253, 255), COEFF(-0.4767, 255) }, { COEFF(1, 255), COEFF(1.8270, 255), COEFF(0, 255) }, }; static const int bt2020[3][3] = { { COEFF(1, 219), COEFF(0, 224), COEFF(1.4746, 224) }, { COEFF(1, 219), COEFF(-0.1646, 224), COEFF(-0.5714, 224) }, { COEFF(1, 219), COEFF(1.8814, 224), COEFF(0, 224) }, }; static const int bt2020_full[3][3] = { { COEFF(1, 255), COEFF(0, 255), COEFF(1.4746, 255) }, { COEFF(1, 255), COEFF(-0.1646, 255), COEFF(-0.5714, 255) }, { COEFF(1, 255), COEFF(1.8814, 255), COEFF(0, 255) }, }; static const int bt2020c[4] = { COEFF(1.9404, 224), COEFF(1.5816, 224), COEFF(1.7184, 224), COEFF(0.9936, 224), }; static const int bt2020c_full[4] = { COEFF(1.9404, 255), COEFF(1.5816, 255), COEFF(1.7184, 255), COEFF(0.9936, 255), }; bool full = tpg->real_quantization == V4L2_QUANTIZATION_FULL_RANGE; unsigned y_offset = full ? 0 : 16; int y_fac = full ? COEFF(1.0, 255) : COEFF(1.0, 219); int lin_r, lin_g, lin_b, lin_y; switch (tpg->real_ycbcr_enc) { case V4L2_YCBCR_ENC_601: ycbcr2rgb(full ? bt601_full : bt601, y, cb, cr, y_offset, r, g, b); break; case V4L2_YCBCR_ENC_XV601: /* Ignore quantization range, there is only one possible * Y'CbCr encoding. */ ycbcr2rgb(bt601, y, cb, cr, 16, r, g, b); break; case V4L2_YCBCR_ENC_XV709: /* Ignore quantization range, there is only one possible * Y'CbCr encoding. */ ycbcr2rgb(rec709, y, cb, cr, 16, r, g, b); break; case V4L2_YCBCR_ENC_BT2020: ycbcr2rgb(full ? bt2020_full : bt2020, y, cb, cr, y_offset, r, g, b); break; case V4L2_YCBCR_ENC_BT2020_CONST_LUM: y -= full ? 0 : 16 << 4; cb -= 128 << 4; cr -= 128 << 4; if (cb <= 0) *b = y_fac * y + (full ? bt2020c_full[0] : bt2020c[0]) * cb; else *b = y_fac * y + (full ? bt2020c_full[1] : bt2020c[1]) * cb; *b = *b >> 12; if (cr <= 0) *r = y_fac * y + (full ? bt2020c_full[2] : bt2020c[2]) * cr; else *r = y_fac * y + (full ? bt2020c_full[3] : bt2020c[3]) * cr; *r = *r >> 12; lin_r = rec709_to_linear(*r); lin_b = rec709_to_linear(*b); lin_y = rec709_to_linear((y * 255) / (full ? 255 : 219)); lin_g = COEFF(1.0 / 0.6780, 255) * lin_y - COEFF(0.2627 / 0.6780, 255) * lin_r - COEFF(0.0593 / 0.6780, 255) * lin_b; *g = linear_to_rec709(lin_g >> 12); break; case V4L2_YCBCR_ENC_SMPTE240M: ycbcr2rgb(full ? smpte240m_full : smpte240m, y, cb, cr, y_offset, r, g, b); break; case V4L2_YCBCR_ENC_709: default: ycbcr2rgb(full ? rec709_full : rec709, y, cb, cr, y_offset, r, g, b); break; } } /* precalculate color bar values to speed up rendering */ static void precalculate_color(struct tpg_data *tpg, int k) { int col = k; int r = tpg_colors[col].r; int g = tpg_colors[col].g; int b = tpg_colors[col].b; int y, cb, cr; bool ycbcr_valid = false; if (k == TPG_COLOR_TEXTBG) { col = tpg_get_textbg_color(tpg); r = tpg_colors[col].r; g = tpg_colors[col].g; b = tpg_colors[col].b; } else if (k == TPG_COLOR_TEXTFG) { col = tpg_get_textfg_color(tpg); r = tpg_colors[col].r; g = tpg_colors[col].g; b = tpg_colors[col].b; } else if (tpg->pattern == TPG_PAT_NOISE) { r = g = b = prandom_u32_max(256); } else if (k == TPG_COLOR_RANDOM) { r = g = b = tpg->qual_offset + prandom_u32_max(196); } else if (k >= TPG_COLOR_RAMP) { r = g = b = k - TPG_COLOR_RAMP; } if (tpg->pattern == TPG_PAT_CSC_COLORBAR && col <= TPG_COLOR_CSC_BLACK) { r = tpg_csc_colors[tpg->colorspace][tpg->real_xfer_func][col].r; g = tpg_csc_colors[tpg->colorspace][tpg->real_xfer_func][col].g; b = tpg_csc_colors[tpg->colorspace][tpg->real_xfer_func][col].b; } else { r <<= 4; g <<= 4; b <<= 4; } if (tpg->qual == TPG_QUAL_GRAY || tpg->color_enc == TGP_COLOR_ENC_LUMA) { /* Rec. 709 Luma function */ /* (0.2126, 0.7152, 0.0722) * (255 * 256) */ r = g = b = (13879 * r + 46688 * g + 4713 * b) >> 16; } /* * The assumption is that the RGB output is always full range, * so only if the rgb_range overrides the 'real' rgb range do * we need to convert the RGB values. * * Remember that r, g and b are still in the 0 - 0xff0 range. */ if (tpg->real_rgb_range == V4L2_DV_RGB_RANGE_LIMITED && tpg->rgb_range == V4L2_DV_RGB_RANGE_FULL && tpg->color_enc == TGP_COLOR_ENC_RGB) { /* * Convert from full range (which is what r, g and b are) * to limited range (which is the 'real' RGB range), which * is then interpreted as full range. */ r = (r * 219) / 255 + (16 << 4); g = (g * 219) / 255 + (16 << 4); b = (b * 219) / 255 + (16 << 4); } else if (tpg->real_rgb_range != V4L2_DV_RGB_RANGE_LIMITED && tpg->rgb_range == V4L2_DV_RGB_RANGE_LIMITED && tpg->color_enc == TGP_COLOR_ENC_RGB) { /* * Clamp r, g and b to the limited range and convert to full * range since that's what we deliver. */ r = clamp(r, 16 << 4, 235 << 4); g = clamp(g, 16 << 4, 235 << 4); b = clamp(b, 16 << 4, 235 << 4); r = (r - (16 << 4)) * 255 / 219; g = (g - (16 << 4)) * 255 / 219; b = (b - (16 << 4)) * 255 / 219; } if ((tpg->brightness != 128 || tpg->contrast != 128 || tpg->saturation != 128 || tpg->hue) && tpg->color_enc != TGP_COLOR_ENC_LUMA) { /* Implement these operations */ int tmp_cb, tmp_cr; /* First convert to YCbCr */ color_to_ycbcr(tpg, r, g, b, &y, &cb, &cr); y = (16 << 4) + ((y - (16 << 4)) * tpg->contrast) / 128; y += (tpg->brightness << 4) - (128 << 4); cb -= 128 << 4; cr -= 128 << 4; tmp_cb = (cb * cos(128 + tpg->hue)) / 127 + (cr * sin[128 + tpg->hue]) / 127; tmp_cr = (cr * cos(128 + tpg->hue)) / 127 - (cb * sin[128 + tpg->hue]) / 127; cb = (128 << 4) + (tmp_cb * tpg->contrast * tpg->saturation) / (128 * 128); cr = (128 << 4) + (tmp_cr * tpg->contrast * tpg->saturation) / (128 * 128); if (tpg->color_enc == TGP_COLOR_ENC_YCBCR) ycbcr_valid = true; else ycbcr_to_color(tpg, y, cb, cr, &r, &g, &b); } else if ((tpg->brightness != 128 || tpg->contrast != 128) && tpg->color_enc == TGP_COLOR_ENC_LUMA) { r = (16 << 4) + ((r - (16 << 4)) * tpg->contrast) / 128; r += (tpg->brightness << 4) - (128 << 4); } switch (tpg->color_enc) { case TGP_COLOR_ENC_HSV: { int h, s, v; color_to_hsv(tpg, r, g, b, &h, &s, &v); tpg->colors[k][0] = h; tpg->colors[k][1] = s; tpg->colors[k][2] = v; break; } case TGP_COLOR_ENC_YCBCR: { /* Convert to YCbCr */ if (!ycbcr_valid) color_to_ycbcr(tpg, r, g, b, &y, &cb, &cr); y >>= 4; cb >>= 4; cr >>= 4; /* * XV601/709 use the header/footer margins to encode R', G' * and B' values outside the range [0-1]. So do not clamp * XV601/709 values. */ if (tpg->real_quantization == V4L2_QUANTIZATION_LIM_RANGE && tpg->real_ycbcr_enc != V4L2_YCBCR_ENC_XV601 && tpg->real_ycbcr_enc != V4L2_YCBCR_ENC_XV709) { y = clamp(y, 16, 235); cb = clamp(cb, 16, 240); cr = clamp(cr, 16, 240); } else { y = clamp(y, 1, 254); cb = clamp(cb, 1, 254); cr = clamp(cr, 1, 254); } switch (tpg->fourcc) { case V4L2_PIX_FMT_YUV444: y >>= 4; cb >>= 4; cr >>= 4; break; case V4L2_PIX_FMT_YUV555: y >>= 3; cb >>= 3; cr >>= 3; break; case V4L2_PIX_FMT_YUV565: y >>= 3; cb >>= 2; cr >>= 3; break; } tpg->colors[k][0] = y; tpg->colors[k][1] = cb; tpg->colors[k][2] = cr; break; } case TGP_COLOR_ENC_LUMA: { tpg->colors[k][0] = r >> 4; break; } case TGP_COLOR_ENC_RGB: { if (tpg->real_quantization == V4L2_QUANTIZATION_LIM_RANGE) { r = (r * 219) / 255 + (16 << 4); g = (g * 219) / 255 + (16 << 4); b = (b * 219) / 255 + (16 << 4); } switch (tpg->fourcc) { case V4L2_PIX_FMT_RGB332: r >>= 9; g >>= 9; b >>= 10; break; case V4L2_PIX_FMT_RGB565: case V4L2_PIX_FMT_RGB565X: r >>= 7; g >>= 6; b >>= 7; break; case V4L2_PIX_FMT_RGB444: case V4L2_PIX_FMT_XRGB444: case V4L2_PIX_FMT_ARGB444: r >>= 8; g >>= 8; b >>= 8; break; case V4L2_PIX_FMT_RGB555: case V4L2_PIX_FMT_XRGB555: case V4L2_PIX_FMT_ARGB555: case V4L2_PIX_FMT_RGB555X: case V4L2_PIX_FMT_XRGB555X: case V4L2_PIX_FMT_ARGB555X: r >>= 7; g >>= 7; b >>= 7; break; case V4L2_PIX_FMT_BGR666: r >>= 6; g >>= 6; b >>= 6; break; default: r >>= 4; g >>= 4; b >>= 4; break; } tpg->colors[k][0] = r; tpg->colors[k][1] = g; tpg->colors[k][2] = b; break; } } } static void tpg_precalculate_colors(struct tpg_data *tpg) { int k; for (k = 0; k < TPG_COLOR_MAX; k++) precalculate_color(tpg, k); } /* 'odd' is true for pixels 1, 3, 5, etc. and false for pixels 0, 2, 4, etc. */ static void gen_twopix(struct tpg_data *tpg, u8 buf[TPG_MAX_PLANES][8], int color, bool odd) { unsigned offset = odd * tpg->twopixelsize[0] / 2; u8 alpha = tpg->alpha_component; u8 r_y_h, g_u_s, b_v; if (tpg->alpha_red_only && color != TPG_COLOR_CSC_RED && color != TPG_COLOR_100_RED && color != TPG_COLOR_75_RED) alpha = 0; if (color == TPG_COLOR_RANDOM) precalculate_color(tpg, color); r_y_h = tpg->colors[color][0]; /* R or precalculated Y, H */ g_u_s = tpg->colors[color][1]; /* G or precalculated U, V */ b_v = tpg->colors[color][2]; /* B or precalculated V */ switch (tpg->fourcc) { case V4L2_PIX_FMT_GREY: buf[0][offset] = r_y_h; break; case V4L2_PIX_FMT_Y16: /* * Ideally both bytes should be set to r_y_h, but then you won't * be able to detect endian problems. So keep it 0 except for * the corner case where r_y_h is 0xff so white really will be * white (0xffff). */ buf[0][offset] = r_y_h == 0xff ? r_y_h : 0; buf[0][offset+1] = r_y_h; break; case V4L2_PIX_FMT_Y16_BE: /* See comment for V4L2_PIX_FMT_Y16 above */ buf[0][offset] = r_y_h; buf[0][offset+1] = r_y_h == 0xff ? r_y_h : 0; break; case V4L2_PIX_FMT_YUV422M: case V4L2_PIX_FMT_YUV422P: case V4L2_PIX_FMT_YUV420: case V4L2_PIX_FMT_YUV420M: buf[0][offset] = r_y_h; if (odd) { buf[1][0] = (buf[1][0] + g_u_s) / 2; buf[2][0] = (buf[2][0] + b_v) / 2; buf[1][1] = buf[1][0]; buf[2][1] = buf[2][0]; break; } buf[1][0] = g_u_s; buf[2][0] = b_v; break; case V4L2_PIX_FMT_YVU422M: case V4L2_PIX_FMT_YVU420: case V4L2_PIX_FMT_YVU420M: buf[0][offset] = r_y_h; if (odd) { buf[1][0] = (buf[1][0] + b_v) / 2; buf[2][0] = (buf[2][0] + g_u_s) / 2; buf[1][1] = buf[1][0]; buf[2][1] = buf[2][0]; break; } buf[1][0] = b_v; buf[2][0] = g_u_s; break; case V4L2_PIX_FMT_NV12: case V4L2_PIX_FMT_NV12M: case V4L2_PIX_FMT_NV16: case V4L2_PIX_FMT_NV16M: buf[0][offset] = r_y_h; if (odd) { buf[1][0] = (buf[1][0] + g_u_s) / 2; buf[1][1] = (buf[1][1] + b_v) / 2; break; } buf[1][0] = g_u_s; buf[1][1] = b_v; break; case V4L2_PIX_FMT_NV21: case V4L2_PIX_FMT_NV21M: case V4L2_PIX_FMT_NV61: case V4L2_PIX_FMT_NV61M: buf[0][offset] = r_y_h; if (odd) { buf[1][0] = (buf[1][0] + b_v) / 2; buf[1][1] = (buf[1][1] + g_u_s) / 2; break; } buf[1][0] = b_v; buf[1][1] = g_u_s; break; case V4L2_PIX_FMT_YUV444M: buf[0][offset] = r_y_h; buf[1][offset] = g_u_s; buf[2][offset] = b_v; break; case V4L2_PIX_FMT_YVU444M: buf[0][offset] = r_y_h; buf[1][offset] = b_v; buf[2][offset] = g_u_s; break; case V4L2_PIX_FMT_NV24: buf[0][offset] = r_y_h; buf[1][2 * offset] = g_u_s; buf[1][2 * offset + 1] = b_v; break; case V4L2_PIX_FMT_NV42: buf[0][offset] = r_y_h; buf[1][2 * offset] = b_v; buf[1][2 * offset + 1] = g_u_s; break; case V4L2_PIX_FMT_YUYV: buf[0][offset] = r_y_h; if (odd) { buf[0][1] = (buf[0][1] + g_u_s) / 2; buf[0][3] = (buf[0][3] + b_v) / 2; break; } buf[0][1] = g_u_s; buf[0][3] = b_v; break; case V4L2_PIX_FMT_UYVY: buf[0][offset + 1] = r_y_h; if (odd) { buf[0][0] = (buf[0][0] + g_u_s) / 2; buf[0][2] = (buf[0][2] + b_v) / 2; break; } buf[0][0] = g_u_s; buf[0][2] = b_v; break; case V4L2_PIX_FMT_YVYU: buf[0][offset] = r_y_h; if (odd) { buf[0][1] = (buf[0][1] + b_v) / 2; buf[0][3] = (buf[0][3] + g_u_s) / 2; break; } buf[0][1] = b_v; buf[0][3] = g_u_s; break; case V4L2_PIX_FMT_VYUY: buf[0][offset + 1] = r_y_h; if (odd) { buf[0][0] = (buf[0][0] + b_v) / 2; buf[0][2] = (buf[0][2] + g_u_s) / 2; break; } buf[0][0] = b_v; buf[0][2] = g_u_s; break; case V4L2_PIX_FMT_RGB332: buf[0][offset] = (r_y_h << 5) | (g_u_s << 2) | b_v; break; case V4L2_PIX_FMT_YUV565: case V4L2_PIX_FMT_RGB565: buf[0][offset] = (g_u_s << 5) | b_v; buf[0][offset + 1] = (r_y_h << 3) | (g_u_s >> 3); break; case V4L2_PIX_FMT_RGB565X: buf[0][offset] = (r_y_h << 3) | (g_u_s >> 3); buf[0][offset + 1] = (g_u_s << 5) | b_v; break; case V4L2_PIX_FMT_RGB444: case V4L2_PIX_FMT_XRGB444: alpha = 0; /* fall through */ case V4L2_PIX_FMT_YUV444: case V4L2_PIX_FMT_ARGB444: buf[0][offset] = (g_u_s << 4) | b_v; buf[0][offset + 1] = (alpha & 0xf0) | r_y_h; break; case V4L2_PIX_FMT_RGB555: case V4L2_PIX_FMT_XRGB555: alpha = 0; /* fall through */ case V4L2_PIX_FMT_YUV555: case V4L2_PIX_FMT_ARGB555: buf[0][offset] = (g_u_s << 5) | b_v; buf[0][offset + 1] = (alpha & 0x80) | (r_y_h << 2) | (g_u_s >> 3); break; case V4L2_PIX_FMT_RGB555X: case V4L2_PIX_FMT_XRGB555X: alpha = 0; /* fall through */ case V4L2_PIX_FMT_ARGB555X: buf[0][offset] = (alpha & 0x80) | (r_y_h << 2) | (g_u_s >> 3); buf[0][offset + 1] = (g_u_s << 5) | b_v; break; case V4L2_PIX_FMT_RGB24: case V4L2_PIX_FMT_HSV24: buf[0][offset] = r_y_h; buf[0][offset + 1] = g_u_s; buf[0][offset + 2] = b_v; break; case V4L2_PIX_FMT_BGR24: buf[0][offset] = b_v; buf[0][offset + 1] = g_u_s; buf[0][offset + 2] = r_y_h; break; case V4L2_PIX_FMT_BGR666: buf[0][offset] = (b_v << 2) | (g_u_s >> 4); buf[0][offset + 1] = (g_u_s << 4) | (r_y_h >> 2); buf[0][offset + 2] = r_y_h << 6; buf[0][offset + 3] = 0; break; case V4L2_PIX_FMT_RGB32: case V4L2_PIX_FMT_XRGB32: case V4L2_PIX_FMT_HSV32: alpha = 0; /* fall through */ case V4L2_PIX_FMT_YUV32: case V4L2_PIX_FMT_ARGB32: buf[0][offset] = alpha; buf[0][offset + 1] = r_y_h; buf[0][offset + 2] = g_u_s; buf[0][offset + 3] = b_v; break; case V4L2_PIX_FMT_BGR32: case V4L2_PIX_FMT_XBGR32: alpha = 0; /* fall through */ case V4L2_PIX_FMT_ABGR32: buf[0][offset] = b_v; buf[0][offset + 1] = g_u_s; buf[0][offset + 2] = r_y_h; buf[0][offset + 3] = alpha; break; case V4L2_PIX_FMT_SBGGR8: buf[0][offset] = odd ? g_u_s : b_v; buf[1][offset] = odd ? r_y_h : g_u_s; break; case V4L2_PIX_FMT_SGBRG8: buf[0][offset] = odd ? b_v : g_u_s; buf[1][offset] = odd ? g_u_s : r_y_h; break; case V4L2_PIX_FMT_SGRBG8: buf[0][offset] = odd ? r_y_h : g_u_s; buf[1][offset] = odd ? g_u_s : b_v; break; case V4L2_PIX_FMT_SRGGB8: buf[0][offset] = odd ? g_u_s : r_y_h; buf[1][offset] = odd ? b_v : g_u_s; break; case V4L2_PIX_FMT_SBGGR10: buf[0][offset] = odd ? g_u_s << 2 : b_v << 2; buf[0][offset + 1] = odd ? g_u_s >> 6 : b_v >> 6; buf[1][offset] = odd ? r_y_h << 2 : g_u_s << 2; buf[1][offset + 1] = odd ? r_y_h >> 6 : g_u_s >> 6; buf[0][offset] |= (buf[0][offset] >> 2) & 3; buf[1][offset] |= (buf[1][offset] >> 2) & 3; break; case V4L2_PIX_FMT_SGBRG10: buf[0][offset] = odd ? b_v << 2 : g_u_s << 2; buf[0][offset + 1] = odd ? b_v >> 6 : g_u_s >> 6; buf[1][offset] = odd ? g_u_s << 2 : r_y_h << 2; buf[1][offset + 1] = odd ? g_u_s >> 6 : r_y_h >> 6; buf[0][offset] |= (buf[0][offset] >> 2) & 3; buf[1][offset] |= (buf[1][offset] >> 2) & 3; break; case V4L2_PIX_FMT_SGRBG10: buf[0][offset] = odd ? r_y_h << 2 : g_u_s << 2; buf[0][offset + 1] = odd ? r_y_h >> 6 : g_u_s >> 6; buf[1][offset] = odd ? g_u_s << 2 : b_v << 2; buf[1][offset + 1] = odd ? g_u_s >> 6 : b_v >> 6; buf[0][offset] |= (buf[0][offset] >> 2) & 3; buf[1][offset] |= (buf[1][offset] >> 2) & 3; break; case V4L2_PIX_FMT_SRGGB10: buf[0][offset] = odd ? g_u_s << 2 : r_y_h << 2; buf[0][offset + 1] = odd ? g_u_s >> 6 : r_y_h >> 6; buf[1][offset] = odd ? b_v << 2 : g_u_s << 2; buf[1][offset + 1] = odd ? b_v >> 6 : g_u_s >> 6; buf[0][offset] |= (buf[0][offset] >> 2) & 3; buf[1][offset] |= (buf[1][offset] >> 2) & 3; break; case V4L2_PIX_FMT_SBGGR12: buf[0][offset] = odd ? g_u_s << 4 : b_v << 4; buf[0][offset + 1] = odd ? g_u_s >> 4 : b_v >> 4; buf[1][offset] = odd ? r_y_h << 4 : g_u_s << 4; buf[1][offset + 1] = odd ? r_y_h >> 4 : g_u_s >> 4; buf[0][offset] |= (buf[0][offset] >> 4) & 0xf; buf[1][offset] |= (buf[1][offset] >> 4) & 0xf; break; case V4L2_PIX_FMT_SGBRG12: buf[0][offset] = odd ? b_v << 4 : g_u_s << 4; buf[0][offset + 1] = odd ? b_v >> 4 : g_u_s >> 4; buf[1][offset] = odd ? g_u_s << 4 : r_y_h << 4; buf[1][offset + 1] = odd ? g_u_s >> 4 : r_y_h >> 4; buf[0][offset] |= (buf[0][offset] >> 4) & 0xf; buf[1][offset] |= (buf[1][offset] >> 4) & 0xf; break; case V4L2_PIX_FMT_SGRBG12: buf[0][offset] = odd ? r_y_h << 4 : g_u_s << 4; buf[0][offset + 1] = odd ? r_y_h >> 4 : g_u_s >> 4; buf[1][offset] = odd ? g_u_s << 4 : b_v << 4; buf[1][offset + 1] = odd ? g_u_s >> 4 : b_v >> 4; buf[0][offset] |= (buf[0][offset] >> 4) & 0xf; buf[1][offset] |= (buf[1][offset] >> 4) & 0xf; break; case V4L2_PIX_FMT_SRGGB12: buf[0][offset] = odd ? g_u_s << 4 : r_y_h << 4; buf[0][offset + 1] = odd ? g_u_s >> 4 : r_y_h >> 4; buf[1][offset] = odd ? b_v << 4 : g_u_s << 4; buf[1][offset + 1] = odd ? b_v >> 4 : g_u_s >> 4; buf[0][offset] |= (buf[0][offset] >> 4) & 0xf; buf[1][offset] |= (buf[1][offset] >> 4) & 0xf; break; } } unsigned tpg_g_interleaved_plane(const struct tpg_data *tpg, unsigned buf_line) { switch (tpg->fourcc) { case V4L2_PIX_FMT_SBGGR8: case V4L2_PIX_FMT_SGBRG8: case V4L2_PIX_FMT_SGRBG8: case V4L2_PIX_FMT_SRGGB8: case V4L2_PIX_FMT_SBGGR10: case V4L2_PIX_FMT_SGBRG10: case V4L2_PIX_FMT_SGRBG10: case V4L2_PIX_FMT_SRGGB10: case V4L2_PIX_FMT_SBGGR12: case V4L2_PIX_FMT_SGBRG12: case V4L2_PIX_FMT_SGRBG12: case V4L2_PIX_FMT_SRGGB12: return buf_line & 1; default: return 0; } } EXPORT_SYMBOL_GPL(tpg_g_interleaved_plane); /* Return how many pattern lines are used by the current pattern. */ static unsigned tpg_get_pat_lines(const struct tpg_data *tpg) { switch (tpg->pattern) { case TPG_PAT_CHECKERS_16X16: case TPG_PAT_CHECKERS_2X2: case TPG_PAT_CHECKERS_1X1: case TPG_PAT_COLOR_CHECKERS_2X2: case TPG_PAT_COLOR_CHECKERS_1X1: case TPG_PAT_ALTERNATING_HLINES: case TPG_PAT_CROSS_1_PIXEL: case TPG_PAT_CROSS_2_PIXELS: case TPG_PAT_CROSS_10_PIXELS: return 2; case TPG_PAT_100_COLORSQUARES: case TPG_PAT_100_HCOLORBAR: return 8; default: return 1; } } /* Which pattern line should be used for the given frame line. */ static unsigned tpg_get_pat_line(const struct tpg_data *tpg, unsigned line) { switch (tpg->pattern) { case TPG_PAT_CHECKERS_16X16: return (line >> 4) & 1; case TPG_PAT_CHECKERS_1X1: case TPG_PAT_COLOR_CHECKERS_1X1: case TPG_PAT_ALTERNATING_HLINES: return line & 1; case TPG_PAT_CHECKERS_2X2: case TPG_PAT_COLOR_CHECKERS_2X2: return (line & 2) >> 1; case TPG_PAT_100_COLORSQUARES: case TPG_PAT_100_HCOLORBAR: return (line * 8) / tpg->src_height; case TPG_PAT_CROSS_1_PIXEL: return line == tpg->src_height / 2; case TPG_PAT_CROSS_2_PIXELS: return (line + 1) / 2 == tpg->src_height / 4; case TPG_PAT_CROSS_10_PIXELS: return (line + 10) / 20 == tpg->src_height / 40; default: return 0; } } /* * Which color should be used for the given pattern line and X coordinate. * Note: x is in the range 0 to 2 * tpg->src_width. */ static enum tpg_color tpg_get_color(const struct tpg_data *tpg, unsigned pat_line, unsigned x) { /* Maximum number of bars are TPG_COLOR_MAX - otherwise, the input print code should be modified */ static const enum tpg_color bars[3][8] = { /* Standard ITU-R 75% color bar sequence */ { TPG_COLOR_CSC_WHITE, TPG_COLOR_75_YELLOW, TPG_COLOR_75_CYAN, TPG_COLOR_75_GREEN, TPG_COLOR_75_MAGENTA, TPG_COLOR_75_RED, TPG_COLOR_75_BLUE, TPG_COLOR_100_BLACK, }, /* Standard ITU-R 100% color bar sequence */ { TPG_COLOR_100_WHITE, TPG_COLOR_100_YELLOW, TPG_COLOR_100_CYAN, TPG_COLOR_100_GREEN, TPG_COLOR_100_MAGENTA, TPG_COLOR_100_RED, TPG_COLOR_100_BLUE, TPG_COLOR_100_BLACK, }, /* Color bar sequence suitable to test CSC */ { TPG_COLOR_CSC_WHITE, TPG_COLOR_CSC_YELLOW, TPG_COLOR_CSC_CYAN, TPG_COLOR_CSC_GREEN, TPG_COLOR_CSC_MAGENTA, TPG_COLOR_CSC_RED, TPG_COLOR_CSC_BLUE, TPG_COLOR_CSC_BLACK, }, }; switch (tpg->pattern) { case TPG_PAT_75_COLORBAR: case TPG_PAT_100_COLORBAR: case TPG_PAT_CSC_COLORBAR: return bars[tpg->pattern][((x * 8) / tpg->src_width) % 8]; case TPG_PAT_100_COLORSQUARES: return bars[1][(pat_line + (x * 8) / tpg->src_width) % 8]; case TPG_PAT_100_HCOLORBAR: return bars[1][pat_line]; case TPG_PAT_BLACK: return TPG_COLOR_100_BLACK; case TPG_PAT_WHITE: return TPG_COLOR_100_WHITE; case TPG_PAT_RED: return TPG_COLOR_100_RED; case TPG_PAT_GREEN: return TPG_COLOR_100_GREEN; case TPG_PAT_BLUE: return TPG_COLOR_100_BLUE; case TPG_PAT_CHECKERS_16X16: return (((x >> 4) & 1) ^ (pat_line & 1)) ? TPG_COLOR_100_BLACK : TPG_COLOR_100_WHITE; case TPG_PAT_CHECKERS_1X1: return ((x & 1) ^ (pat_line & 1)) ? TPG_COLOR_100_WHITE : TPG_COLOR_100_BLACK; case TPG_PAT_COLOR_CHECKERS_1X1: return ((x & 1) ^ (pat_line & 1)) ? TPG_COLOR_100_RED : TPG_COLOR_100_BLUE; case TPG_PAT_CHECKERS_2X2: return (((x >> 1) & 1) ^ (pat_line & 1)) ? TPG_COLOR_100_WHITE : TPG_COLOR_100_BLACK; case TPG_PAT_COLOR_CHECKERS_2X2: return (((x >> 1) & 1) ^ (pat_line & 1)) ? TPG_COLOR_100_RED : TPG_COLOR_100_BLUE; case TPG_PAT_ALTERNATING_HLINES: return pat_line ? TPG_COLOR_100_WHITE : TPG_COLOR_100_BLACK; case TPG_PAT_ALTERNATING_VLINES: return (x & 1) ? TPG_COLOR_100_WHITE : TPG_COLOR_100_BLACK; case TPG_PAT_CROSS_1_PIXEL: if (pat_line || (x % tpg->src_width) == tpg->src_width / 2) return TPG_COLOR_100_BLACK; return TPG_COLOR_100_WHITE; case TPG_PAT_CROSS_2_PIXELS: if (pat_line || ((x % tpg->src_width) + 1) / 2 == tpg->src_width / 4) return TPG_COLOR_100_BLACK; return TPG_COLOR_100_WHITE; case TPG_PAT_CROSS_10_PIXELS: if (pat_line || ((x % tpg->src_width) + 10) / 20 == tpg->src_width / 40) return TPG_COLOR_100_BLACK; return TPG_COLOR_100_WHITE; case TPG_PAT_GRAY_RAMP: return TPG_COLOR_RAMP + ((x % tpg->src_width) * 256) / tpg->src_width; default: return TPG_COLOR_100_RED; } } /* * Given the pixel aspect ratio and video aspect ratio calculate the * coordinates of a centered square and the coordinates of the border of * the active video area. The coordinates are relative to the source * frame rectangle. */ static void tpg_calculate_square_border(struct tpg_data *tpg) { unsigned w = tpg->src_width; unsigned h = tpg->src_height; unsigned sq_w, sq_h; sq_w = (w * 2 / 5) & ~1; if (((w - sq_w) / 2) & 1) sq_w += 2; sq_h = sq_w; tpg->square.width = sq_w; if (tpg->vid_aspect == TPG_VIDEO_ASPECT_16X9_ANAMORPHIC) { unsigned ana_sq_w = (sq_w / 4) * 3; if (((w - ana_sq_w) / 2) & 1) ana_sq_w += 2; tpg->square.width = ana_sq_w; } tpg->square.left = (w - tpg->square.width) / 2; if (tpg->pix_aspect == TPG_PIXEL_ASPECT_NTSC) sq_h = sq_w * 10 / 11; else if (tpg->pix_aspect == TPG_PIXEL_ASPECT_PAL) sq_h = sq_w * 59 / 54; tpg->square.height = sq_h; tpg->square.top = (h - sq_h) / 2; tpg->border.left = 0; tpg->border.width = w; tpg->border.top = 0; tpg->border.height = h; switch (tpg->vid_aspect) { case TPG_VIDEO_ASPECT_4X3: if (tpg->pix_aspect) return; if (3 * w >= 4 * h) { tpg->border.width = ((4 * h) / 3) & ~1; if (((w - tpg->border.width) / 2) & ~1) tpg->border.width -= 2; tpg->border.left = (w - tpg->border.width) / 2; break; } tpg->border.height = ((3 * w) / 4) & ~1; tpg->border.top = (h - tpg->border.height) / 2; break; case TPG_VIDEO_ASPECT_14X9_CENTRE: if (tpg->pix_aspect) { tpg->border.height = tpg->pix_aspect == TPG_PIXEL_ASPECT_NTSC ? 420 : 506; tpg->border.top = (h - tpg->border.height) / 2; break; } if (9 * w >= 14 * h) { tpg->border.width = ((14 * h) / 9) & ~1; if (((w - tpg->border.width) / 2) & ~1) tpg->border.width -= 2; tpg->border.left = (w - tpg->border.width) / 2; break; } tpg->border.height = ((9 * w) / 14) & ~1; tpg->border.top = (h - tpg->border.height) / 2; break; case TPG_VIDEO_ASPECT_16X9_CENTRE: if (tpg->pix_aspect) { tpg->border.height = tpg->pix_aspect == TPG_PIXEL_ASPECT_NTSC ? 368 : 442; tpg->border.top = (h - tpg->border.height) / 2; break; } if (9 * w >= 16 * h) { tpg->border.width = ((16 * h) / 9) & ~1; if (((w - tpg->border.width) / 2) & ~1) tpg->border.width -= 2; tpg->border.left = (w - tpg->border.width) / 2; break; } tpg->border.height = ((9 * w) / 16) & ~1; tpg->border.top = (h - tpg->border.height) / 2; break; default: break; } } static void tpg_precalculate_line(struct tpg_data *tpg) { enum tpg_color contrast; u8 pix[TPG_MAX_PLANES][8]; unsigned pat; unsigned p; unsigned x; switch (tpg->pattern) { case TPG_PAT_GREEN: contrast = TPG_COLOR_100_RED; break; case TPG_PAT_CSC_COLORBAR: contrast = TPG_COLOR_CSC_GREEN; break; default: contrast = TPG_COLOR_100_GREEN; break; } for (pat = 0; pat < tpg_get_pat_lines(tpg); pat++) { /* Coarse scaling with Bresenham */ unsigned int_part = tpg->src_width / tpg->scaled_width; unsigned fract_part = tpg->src_width % tpg->scaled_width; unsigned src_x = 0; unsigned error = 0; for (x = 0; x < tpg->scaled_width * 2; x += 2) { unsigned real_x = src_x; enum tpg_color color1, color2; real_x = tpg->hflip ? tpg->src_width * 2 - real_x - 2 : real_x; color1 = tpg_get_color(tpg, pat, real_x); src_x += int_part; error += fract_part; if (error >= tpg->scaled_width) { error -= tpg->scaled_width; src_x++; } real_x = src_x; real_x = tpg->hflip ? tpg->src_width * 2 - real_x - 2 : real_x; color2 = tpg_get_color(tpg, pat, real_x); src_x += int_part; error += fract_part; if (error >= tpg->scaled_width) { error -= tpg->scaled_width; src_x++; } gen_twopix(tpg, pix, tpg->hflip ? color2 : color1, 0); gen_twopix(tpg, pix, tpg->hflip ? color1 : color2, 1); for (p = 0; p < tpg->planes; p++) { unsigned twopixsize = tpg->twopixelsize[p]; unsigned hdiv = tpg->hdownsampling[p]; u8 *pos = tpg->lines[pat][p] + tpg_hdiv(tpg, p, x); memcpy(pos, pix[p], twopixsize / hdiv); } } } if (tpg->vdownsampling[tpg->planes - 1] > 1) { unsigned pat_lines = tpg_get_pat_lines(tpg); for (pat = 0; pat < pat_lines; pat++) { unsigned next_pat = (pat + 1) % pat_lines; for (p = 1; p < tpg->planes; p++) { unsigned w = tpg_hdiv(tpg, p, tpg->scaled_width * 2); u8 *pos1 = tpg->lines[pat][p]; u8 *pos2 = tpg->lines[next_pat][p]; u8 *dest = tpg->downsampled_lines[pat][p]; for (x = 0; x < w; x++, pos1++, pos2++, dest++) *dest = ((u16)*pos1 + (u16)*pos2) / 2; } } } gen_twopix(tpg, pix, contrast, 0); gen_twopix(tpg, pix, contrast, 1); for (p = 0; p < tpg->planes; p++) { unsigned twopixsize = tpg->twopixelsize[p]; u8 *pos = tpg->contrast_line[p]; for (x = 0; x < tpg->scaled_width; x += 2, pos += twopixsize) memcpy(pos, pix[p], twopixsize); } gen_twopix(tpg, pix, TPG_COLOR_100_BLACK, 0); gen_twopix(tpg, pix, TPG_COLOR_100_BLACK, 1); for (p = 0; p < tpg->planes; p++) { unsigned twopixsize = tpg->twopixelsize[p]; u8 *pos = tpg->black_line[p]; for (x = 0; x < tpg->scaled_width; x += 2, pos += twopixsize) memcpy(pos, pix[p], twopixsize); } for (x = 0; x < tpg->scaled_width * 2; x += 2) { gen_twopix(tpg, pix, TPG_COLOR_RANDOM, 0); gen_twopix(tpg, pix, TPG_COLOR_RANDOM, 1); for (p = 0; p < tpg->planes; p++) { unsigned twopixsize = tpg->twopixelsize[p]; u8 *pos = tpg->random_line[p] + x * twopixsize / 2; memcpy(pos, pix[p], twopixsize); } } gen_twopix(tpg, tpg->textbg, TPG_COLOR_TEXTBG, 0); gen_twopix(tpg, tpg->textbg, TPG_COLOR_TEXTBG, 1); gen_twopix(tpg, tpg->textfg, TPG_COLOR_TEXTFG, 0); gen_twopix(tpg, tpg->textfg, TPG_COLOR_TEXTFG, 1); } /* need this to do rgb24 rendering */ typedef struct { u16 __; u8 _; } __packed x24; #define PRINTSTR(PIXTYPE) do { \ unsigned vdiv = tpg->vdownsampling[p]; \ unsigned hdiv = tpg->hdownsampling[p]; \ int line; \ PIXTYPE fg; \ PIXTYPE bg; \ memcpy(&fg, tpg->textfg[p], sizeof(PIXTYPE)); \ memcpy(&bg, tpg->textbg[p], sizeof(PIXTYPE)); \ \ for (line = first; line < 16; line += vdiv * step) { \ int l = tpg->vflip ? 15 - line : line; \ PIXTYPE *pos = (PIXTYPE *)(basep[p][(line / vdiv) & 1] + \ ((y * step + l) / (vdiv * div)) * tpg->bytesperline[p] + \ (x / hdiv) * sizeof(PIXTYPE)); \ unsigned s; \ \ for (s = 0; s < len; s++) { \ u8 chr = font8x16[(u8)text[s] * 16 + line]; \ \ if (hdiv == 2 && tpg->hflip) { \ pos[3] = (chr & (0x01 << 6) ? fg : bg); \ pos[2] = (chr & (0x01 << 4) ? fg : bg); \ pos[1] = (chr & (0x01 << 2) ? fg : bg); \ pos[0] = (chr & (0x01 << 0) ? fg : bg); \ } else if (hdiv == 2) { \ pos[0] = (chr & (0x01 << 7) ? fg : bg); \ pos[1] = (chr & (0x01 << 5) ? fg : bg); \ pos[2] = (chr & (0x01 << 3) ? fg : bg); \ pos[3] = (chr & (0x01 << 1) ? fg : bg); \ } else if (tpg->hflip) { \ pos[7] = (chr & (0x01 << 7) ? fg : bg); \ pos[6] = (chr & (0x01 << 6) ? fg : bg); \ pos[5] = (chr & (0x01 << 5) ? fg : bg); \ pos[4] = (chr & (0x01 << 4) ? fg : bg); \ pos[3] = (chr & (0x01 << 3) ? fg : bg); \ pos[2] = (chr & (0x01 << 2) ? fg : bg); \ pos[1] = (chr & (0x01 << 1) ? fg : bg); \ pos[0] = (chr & (0x01 << 0) ? fg : bg); \ } else { \ pos[0] = (chr & (0x01 << 7) ? fg : bg); \ pos[1] = (chr & (0x01 << 6) ? fg : bg); \ pos[2] = (chr & (0x01 << 5) ? fg : bg); \ pos[3] = (chr & (0x01 << 4) ? fg : bg); \ pos[4] = (chr & (0x01 << 3) ? fg : bg); \ pos[5] = (chr & (0x01 << 2) ? fg : bg); \ pos[6] = (chr & (0x01 << 1) ? fg : bg); \ pos[7] = (chr & (0x01 << 0) ? fg : bg); \ } \ \ pos += (tpg->hflip ? -8 : 8) / (int)hdiv; \ } \ } \ } while (0) static noinline void tpg_print_str_2(const struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], unsigned p, unsigned first, unsigned div, unsigned step, int y, int x, char *text, unsigned len) { PRINTSTR(u8); } static noinline void tpg_print_str_4(const struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], unsigned p, unsigned first, unsigned div, unsigned step, int y, int x, char *text, unsigned len) { PRINTSTR(u16); } static noinline void tpg_print_str_6(const struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], unsigned p, unsigned first, unsigned div, unsigned step, int y, int x, char *text, unsigned len) { PRINTSTR(x24); } static noinline void tpg_print_str_8(const struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], unsigned p, unsigned first, unsigned div, unsigned step, int y, int x, char *text, unsigned len) { PRINTSTR(u32); } void tpg_gen_text(const struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], int y, int x, char *text) { unsigned step = V4L2_FIELD_HAS_T_OR_B(tpg->field) ? 2 : 1; unsigned div = step; unsigned first = 0; unsigned len = strlen(text); unsigned p; if (font8x16 == NULL || basep == NULL) return; /* Checks if it is possible to show string */ if (y + 16 >= tpg->compose.height || x + 8 >= tpg->compose.width) return; if (len > (tpg->compose.width - x) / 8) len = (tpg->compose.width - x) / 8; if (tpg->vflip) y = tpg->compose.height - y - 16; if (tpg->hflip) x = tpg->compose.width - x - 8; y += tpg->compose.top; x += tpg->compose.left; if (tpg->field == V4L2_FIELD_BOTTOM) first = 1; else if (tpg->field == V4L2_FIELD_SEQ_TB || tpg->field == V4L2_FIELD_SEQ_BT) div = 2; for (p = 0; p < tpg->planes; p++) { /* Print text */ switch (tpg->twopixelsize[p]) { case 2: tpg_print_str_2(tpg, basep, p, first, div, step, y, x, text, len); break; case 4: tpg_print_str_4(tpg, basep, p, first, div, step, y, x, text, len); break; case 6: tpg_print_str_6(tpg, basep, p, first, div, step, y, x, text, len); break; case 8: tpg_print_str_8(tpg, basep, p, first, div, step, y, x, text, len); break; } } } EXPORT_SYMBOL_GPL(tpg_gen_text); void tpg_update_mv_step(struct tpg_data *tpg) { int factor = tpg->mv_hor_mode > TPG_MOVE_NONE ? -1 : 1; if (tpg->hflip) factor = -factor; switch (tpg->mv_hor_mode) { case TPG_MOVE_NEG_FAST: case TPG_MOVE_POS_FAST: tpg->mv_hor_step = ((tpg->src_width + 319) / 320) * 4; break; case TPG_MOVE_NEG: case TPG_MOVE_POS: tpg->mv_hor_step = ((tpg->src_width + 639) / 640) * 4; break; case TPG_MOVE_NEG_SLOW: case TPG_MOVE_POS_SLOW: tpg->mv_hor_step = 2; break; case TPG_MOVE_NONE: tpg->mv_hor_step = 0; break; } if (factor < 0) tpg->mv_hor_step = tpg->src_width - tpg->mv_hor_step; factor = tpg->mv_vert_mode > TPG_MOVE_NONE ? -1 : 1; switch (tpg->mv_vert_mode) { case TPG_MOVE_NEG_FAST: case TPG_MOVE_POS_FAST: tpg->mv_vert_step = ((tpg->src_width + 319) / 320) * 4; break; case TPG_MOVE_NEG: case TPG_MOVE_POS: tpg->mv_vert_step = ((tpg->src_width + 639) / 640) * 4; break; case TPG_MOVE_NEG_SLOW: case TPG_MOVE_POS_SLOW: tpg->mv_vert_step = 1; break; case TPG_MOVE_NONE: tpg->mv_vert_step = 0; break; } if (factor < 0) tpg->mv_vert_step = tpg->src_height - tpg->mv_vert_step; } EXPORT_SYMBOL_GPL(tpg_update_mv_step); /* Map the line number relative to the crop rectangle to a frame line number */ static unsigned tpg_calc_frameline(const struct tpg_data *tpg, unsigned src_y, unsigned field) { switch (field) { case V4L2_FIELD_TOP: return tpg->crop.top + src_y * 2; case V4L2_FIELD_BOTTOM: return tpg->crop.top + src_y * 2 + 1; default: return src_y + tpg->crop.top; } } /* * Map the line number relative to the compose rectangle to a destination * buffer line number. */ static unsigned tpg_calc_buffer_line(const struct tpg_data *tpg, unsigned y, unsigned field) { y += tpg->compose.top; switch (field) { case V4L2_FIELD_SEQ_TB: if (y & 1) return tpg->buf_height / 2 + y / 2; return y / 2; case V4L2_FIELD_SEQ_BT: if (y & 1) return y / 2; return tpg->buf_height / 2 + y / 2; default: return y; } } static void tpg_recalc(struct tpg_data *tpg) { if (tpg->recalc_colors) { tpg->recalc_colors = false; tpg->recalc_lines = true; tpg->real_xfer_func = tpg->xfer_func; tpg->real_ycbcr_enc = tpg->ycbcr_enc; tpg->real_hsv_enc = tpg->hsv_enc; tpg->real_quantization = tpg->quantization; if (tpg->xfer_func == V4L2_XFER_FUNC_DEFAULT) tpg->real_xfer_func = V4L2_MAP_XFER_FUNC_DEFAULT(tpg->colorspace); if (tpg->ycbcr_enc == V4L2_YCBCR_ENC_DEFAULT) tpg->real_ycbcr_enc = V4L2_MAP_YCBCR_ENC_DEFAULT(tpg->colorspace); if (tpg->quantization == V4L2_QUANTIZATION_DEFAULT) tpg->real_quantization = V4L2_MAP_QUANTIZATION_DEFAULT( tpg->color_enc != TGP_COLOR_ENC_YCBCR, tpg->colorspace, tpg->real_ycbcr_enc); tpg_precalculate_colors(tpg); } if (tpg->recalc_square_border) { tpg->recalc_square_border = false; tpg_calculate_square_border(tpg); } if (tpg->recalc_lines) { tpg->recalc_lines = false; tpg_precalculate_line(tpg); } } void tpg_calc_text_basep(struct tpg_data *tpg, u8 *basep[TPG_MAX_PLANES][2], unsigned p, u8 *vbuf) { unsigned stride = tpg->bytesperline[p]; unsigned h = tpg->buf_height; tpg_recalc(tpg); basep[p][0] = vbuf; basep[p][1] = vbuf; h /= tpg->vdownsampling[p]; if (tpg->field == V4L2_FIELD_SEQ_TB) basep[p][1] += h * stride / 2; else if (tpg->field == V4L2_FIELD_SEQ_BT) basep[p][0] += h * stride / 2; if (p == 0 && tpg->interleaved) tpg_calc_text_basep(tpg, basep, 1, vbuf); } EXPORT_SYMBOL_GPL(tpg_calc_text_basep); static int tpg_pattern_avg(const struct tpg_data *tpg, unsigned pat1, unsigned pat2) { unsigned pat_lines = tpg_get_pat_lines(tpg); if (pat1 == (pat2 + 1) % pat_lines) return pat2; if (pat2 == (pat1 + 1) % pat_lines) return pat1; return -1; } static const char *tpg_color_enc_str(enum tgp_color_enc color_enc) { switch (color_enc) { case TGP_COLOR_ENC_HSV: return "HSV"; case TGP_COLOR_ENC_YCBCR: return "Y'CbCr"; case TGP_COLOR_ENC_LUMA: return "Luma"; case TGP_COLOR_ENC_RGB: default: return "R'G'B"; } } void tpg_log_status(struct tpg_data *tpg) { pr_info("tpg source WxH: %ux%u (%s)\n", tpg->src_width, tpg->src_height, tpg_color_enc_str(tpg->color_enc)); pr_info("tpg field: %u\n", tpg->field); pr_info("tpg crop: %ux%u@%dx%d\n", tpg->crop.width, tpg->crop.height, tpg->crop.left, tpg->crop.top); pr_info("tpg compose: %ux%u@%dx%d\n", tpg->compose.width, tpg->compose.height, tpg->compose.left, tpg->compose.top); pr_info("tpg colorspace: %d\n", tpg->colorspace); pr_info("tpg transfer function: %d/%d\n", tpg->xfer_func, tpg->real_xfer_func); pr_info("tpg Y'CbCr encoding: %d/%d\n", tpg->ycbcr_enc, tpg->real_ycbcr_enc); pr_info("tpg HSV encoding: %d/%d\n", tpg->hsv_enc, tpg->real_hsv_enc); pr_info("tpg quantization: %d/%d\n", tpg->quantization, tpg->real_quantization); pr_info("tpg RGB range: %d/%d\n", tpg->rgb_range, tpg->real_rgb_range); } EXPORT_SYMBOL_GPL(tpg_log_status); /* * This struct contains common parameters used by both the drawing of the * test pattern and the drawing of the extras (borders, square, etc.) */ struct tpg_draw_params { /* common data */ bool is_tv; bool is_60hz; unsigned twopixsize; unsigned img_width; unsigned stride; unsigned hmax; unsigned frame_line; unsigned frame_line_next; /* test pattern */ unsigned mv_hor_old; unsigned mv_hor_new; unsigned mv_vert_old; unsigned mv_vert_new; /* extras */ unsigned wss_width; unsigned wss_random_offset; unsigned sav_eav_f; unsigned left_pillar_width; unsigned right_pillar_start; }; static void tpg_fill_params_pattern(const struct tpg_data *tpg, unsigned p, struct tpg_draw_params *params) { params->mv_hor_old = tpg_hscale_div(tpg, p, tpg->mv_hor_count % tpg->src_width); params->mv_hor_new = tpg_hscale_div(tpg, p, (tpg->mv_hor_count + tpg->mv_hor_step) % tpg->src_width); params->mv_vert_old = tpg->mv_vert_count % tpg->src_height; params->mv_vert_new = (tpg->mv_vert_count + tpg->mv_vert_step) % tpg->src_height; } static void tpg_fill_params_extras(const struct tpg_data *tpg, unsigned p, struct tpg_draw_params *params) { unsigned left_pillar_width = 0; unsigned right_pillar_start = params->img_width; params->wss_width = tpg->crop.left < tpg->src_width / 2 ? tpg->src_width / 2 - tpg->crop.left : 0; if (params->wss_width > tpg->crop.width) params->wss_width = tpg->crop.width; params->wss_width = tpg_hscale_div(tpg, p, params->wss_width); params->wss_random_offset = params->twopixsize * prandom_u32_max(tpg->src_width / 2); if (tpg->crop.left < tpg->border.left) { left_pillar_width = tpg->border.left - tpg->crop.left; if (left_pillar_width > tpg->crop.width) left_pillar_width = tpg->crop.width; left_pillar_width = tpg_hscale_div(tpg, p, left_pillar_width); } params->left_pillar_width = left_pillar_width; if (tpg->crop.left + tpg->crop.width > tpg->border.left + tpg->border.width) { right_pillar_start = tpg->border.left + tpg->border.width - tpg->crop.left; right_pillar_start = tpg_hscale_div(tpg, p, right_pillar_start); if (right_pillar_start > params->img_width) right_pillar_start = params->img_width; } params->right_pillar_start = right_pillar_start; params->sav_eav_f = tpg->field == (params->is_60hz ? V4L2_FIELD_TOP : V4L2_FIELD_BOTTOM); } static void tpg_fill_plane_extras(const struct tpg_data *tpg, const struct tpg_draw_params *params, unsigned p, unsigned h, u8 *vbuf) { unsigned twopixsize = params->twopixsize; unsigned img_width = params->img_width; unsigned frame_line = params->frame_line; const struct v4l2_rect *sq = &tpg->square; const struct v4l2_rect *b = &tpg->border; const struct v4l2_rect *c = &tpg->crop; if (params->is_tv && !params->is_60hz && frame_line == 0 && params->wss_width) { /* * Replace the first half of the top line of a 50 Hz frame * with random data to simulate a WSS signal. */ u8 *wss = tpg->random_line[p] + params->wss_random_offset; memcpy(vbuf, wss, params->wss_width); } if (tpg->show_border && frame_line >= b->top && frame_line < b->top + b->height) { unsigned bottom = b->top + b->height - 1; unsigned left = params->left_pillar_width; unsigned right = params->right_pillar_start; if (frame_line == b->top || frame_line == b->top + 1 || frame_line == bottom || frame_line == bottom - 1) { memcpy(vbuf + left, tpg->contrast_line[p], right - left); } else { if (b->left >= c->left && b->left < c->left + c->width) memcpy(vbuf + left, tpg->contrast_line[p], twopixsize); if (b->left + b->width > c->left && b->left + b->width <= c->left + c->width) memcpy(vbuf + right - twopixsize, tpg->contrast_line[p], twopixsize); } } if (tpg->qual != TPG_QUAL_NOISE && frame_line >= b->top && frame_line < b->top + b->height) { memcpy(vbuf, tpg->black_line[p], params->left_pillar_width); memcpy(vbuf + params->right_pillar_start, tpg->black_line[p], img_width - params->right_pillar_start); } if (tpg->show_square && frame_line >= sq->top && frame_line < sq->top + sq->height && sq->left < c->left + c->width && sq->left + sq->width >= c->left) { unsigned left = sq->left; unsigned width = sq->width; if (c->left > left) { width -= c->left - left; left = c->left; } if (c->left + c->width < left + width) width -= left + width - c->left - c->width; left -= c->left; left = tpg_hscale_div(tpg, p, left); width = tpg_hscale_div(tpg, p, width); memcpy(vbuf + left, tpg->contrast_line[p], width); } if (tpg->insert_sav) { unsigned offset = tpg_hdiv(tpg, p, tpg->compose.width / 3); u8 *p = vbuf + offset; unsigned vact = 0, hact = 0; p[0] = 0xff; p[1] = 0; p[2] = 0; p[3] = 0x80 | (params->sav_eav_f << 6) | (vact << 5) | (hact << 4) | ((hact ^ vact) << 3) | ((hact ^ params->sav_eav_f) << 2) | ((params->sav_eav_f ^ vact) << 1) | (hact ^ vact ^ params->sav_eav_f); } if (tpg->insert_eav) { unsigned offset = tpg_hdiv(tpg, p, tpg->compose.width * 2 / 3); u8 *p = vbuf + offset; unsigned vact = 0, hact = 1; p[0] = 0xff; p[1] = 0; p[2] = 0; p[3] = 0x80 | (params->sav_eav_f << 6) | (vact << 5) | (hact << 4) | ((hact ^ vact) << 3) | ((hact ^ params->sav_eav_f) << 2) | ((params->sav_eav_f ^ vact) << 1) | (hact ^ vact ^ params->sav_eav_f); } } static void tpg_fill_plane_pattern(const struct tpg_data *tpg, const struct tpg_draw_params *params, unsigned p, unsigned h, u8 *vbuf) { unsigned twopixsize = params->twopixsize; unsigned img_width = params->img_width; unsigned mv_hor_old = params->mv_hor_old; unsigned mv_hor_new = params->mv_hor_new; unsigned mv_vert_old = params->mv_vert_old; unsigned mv_vert_new = params->mv_vert_new; unsigned frame_line = params->frame_line; unsigned frame_line_next = params->frame_line_next; unsigned line_offset = tpg_hscale_div(tpg, p, tpg->crop.left); bool even; bool fill_blank = false; unsigned pat_line_old; unsigned pat_line_new; u8 *linestart_older; u8 *linestart_newer; u8 *linestart_top; u8 *linestart_bottom; even = !(frame_line & 1); if (h >= params->hmax) { if (params->hmax == tpg->compose.height) return; if (!tpg->perc_fill_blank) return; fill_blank = true; } if (tpg->vflip) { frame_line = tpg->src_height - frame_line - 1; frame_line_next = tpg->src_height - frame_line_next - 1; } if (fill_blank) { linestart_older = tpg->contrast_line[p]; linestart_newer = tpg->contrast_line[p]; } else if (tpg->qual != TPG_QUAL_NOISE && (frame_line < tpg->border.top || frame_line >= tpg->border.top + tpg->border.height)) { linestart_older = tpg->black_line[p]; linestart_newer = tpg->black_line[p]; } else if (tpg->pattern == TPG_PAT_NOISE || tpg->qual == TPG_QUAL_NOISE) { linestart_older = tpg->random_line[p] + twopixsize * prandom_u32_max(tpg->src_width / 2); linestart_newer = tpg->random_line[p] + twopixsize * prandom_u32_max(tpg->src_width / 2); } else { unsigned frame_line_old = (frame_line + mv_vert_old) % tpg->src_height; unsigned frame_line_new = (frame_line + mv_vert_new) % tpg->src_height; unsigned pat_line_next_old; unsigned pat_line_next_new; pat_line_old = tpg_get_pat_line(tpg, frame_line_old); pat_line_new = tpg_get_pat_line(tpg, frame_line_new); linestart_older = tpg->lines[pat_line_old][p] + mv_hor_old; linestart_newer = tpg->lines[pat_line_new][p] + mv_hor_new; if (tpg->vdownsampling[p] > 1 && frame_line != frame_line_next) { int avg_pat; /* * Now decide whether we need to use downsampled_lines[]. * That's necessary if the two lines use different patterns. */ pat_line_next_old = tpg_get_pat_line(tpg, (frame_line_next + mv_vert_old) % tpg->src_height); pat_line_next_new = tpg_get_pat_line(tpg, (frame_line_next + mv_vert_new) % tpg->src_height); switch (tpg->field) { case V4L2_FIELD_INTERLACED: case V4L2_FIELD_INTERLACED_BT: case V4L2_FIELD_INTERLACED_TB: avg_pat = tpg_pattern_avg(tpg, pat_line_old, pat_line_new); if (avg_pat < 0) break; linestart_older = tpg->downsampled_lines[avg_pat][p] + mv_hor_old; linestart_newer = linestart_older; break; case V4L2_FIELD_NONE: case V4L2_FIELD_TOP: case V4L2_FIELD_BOTTOM: case V4L2_FIELD_SEQ_BT: case V4L2_FIELD_SEQ_TB: avg_pat = tpg_pattern_avg(tpg, pat_line_old, pat_line_next_old); if (avg_pat >= 0) linestart_older = tpg->downsampled_lines[avg_pat][p] + mv_hor_old; avg_pat = tpg_pattern_avg(tpg, pat_line_new, pat_line_next_new); if (avg_pat >= 0) linestart_newer = tpg->downsampled_lines[avg_pat][p] + mv_hor_new; break; } } linestart_older += line_offset; linestart_newer += line_offset; } if (tpg->field_alternate) { linestart_top = linestart_bottom = linestart_older; } else if (params->is_60hz) { linestart_top = linestart_newer; linestart_bottom = linestart_older; } else { linestart_top = linestart_older; linestart_bottom = linestart_newer; } switch (tpg->field) { case V4L2_FIELD_INTERLACED: case V4L2_FIELD_INTERLACED_TB: case V4L2_FIELD_SEQ_TB: case V4L2_FIELD_SEQ_BT: if (even) memcpy(vbuf, linestart_top, img_width); else memcpy(vbuf, linestart_bottom, img_width); break; case V4L2_FIELD_INTERLACED_BT: if (even) memcpy(vbuf, linestart_bottom, img_width); else memcpy(vbuf, linestart_top, img_width); break; case V4L2_FIELD_TOP: memcpy(vbuf, linestart_top, img_width); break; case V4L2_FIELD_BOTTOM: memcpy(vbuf, linestart_bottom, img_width); break; case V4L2_FIELD_NONE: default: memcpy(vbuf, linestart_older, img_width); break; } } void tpg_fill_plane_buffer(struct tpg_data *tpg, v4l2_std_id std, unsigned p, u8 *vbuf) { struct tpg_draw_params params; unsigned factor = V4L2_FIELD_HAS_T_OR_B(tpg->field) ? 2 : 1; /* Coarse scaling with Bresenham */ unsigned int_part = (tpg->crop.height / factor) / tpg->compose.height; unsigned fract_part = (tpg->crop.height / factor) % tpg->compose.height; unsigned src_y = 0; unsigned error = 0; unsigned h; tpg_recalc(tpg); params.is_tv = std; params.is_60hz = std & V4L2_STD_525_60; params.twopixsize = tpg->twopixelsize[p]; params.img_width = tpg_hdiv(tpg, p, tpg->compose.width); params.stride = tpg->bytesperline[p]; params.hmax = (tpg->compose.height * tpg->perc_fill) / 100; tpg_fill_params_pattern(tpg, p, ¶ms); tpg_fill_params_extras(tpg, p, ¶ms); vbuf += tpg_hdiv(tpg, p, tpg->compose.left); for (h = 0; h < tpg->compose.height; h++) { unsigned buf_line; params.frame_line = tpg_calc_frameline(tpg, src_y, tpg->field); params.frame_line_next = params.frame_line; buf_line = tpg_calc_buffer_line(tpg, h, tpg->field); src_y += int_part; error += fract_part; if (error >= tpg->compose.height) { error -= tpg->compose.height; src_y++; } /* * For line-interleaved formats determine the 'plane' * based on the buffer line. */ if (tpg_g_interleaved(tpg)) p = tpg_g_interleaved_plane(tpg, buf_line); if (tpg->vdownsampling[p] > 1) { /* * When doing vertical downsampling the field setting * matters: for SEQ_BT/TB we downsample each field * separately (i.e. lines 0+2 are combined, as are * lines 1+3), for the other field settings we combine * odd and even lines. Doing that for SEQ_BT/TB would * be really weird. */ if (tpg->field == V4L2_FIELD_SEQ_BT || tpg->field == V4L2_FIELD_SEQ_TB) { unsigned next_src_y = src_y; if ((h & 3) >= 2) continue; next_src_y += int_part; if (error + fract_part >= tpg->compose.height) next_src_y++; params.frame_line_next = tpg_calc_frameline(tpg, next_src_y, tpg->field); } else { if (h & 1) continue; params.frame_line_next = tpg_calc_frameline(tpg, src_y, tpg->field); } buf_line /= tpg->vdownsampling[p]; } tpg_fill_plane_pattern(tpg, ¶ms, p, h, vbuf + buf_line * params.stride); tpg_fill_plane_extras(tpg, ¶ms, p, h, vbuf + buf_line * params.stride); } } EXPORT_SYMBOL_GPL(tpg_fill_plane_buffer); void tpg_fillbuffer(struct tpg_data *tpg, v4l2_std_id std, unsigned p, u8 *vbuf) { unsigned offset = 0; unsigned i; if (tpg->buffers > 1) { tpg_fill_plane_buffer(tpg, std, p, vbuf); return; } for (i = 0; i < tpg_g_planes(tpg); i++) { tpg_fill_plane_buffer(tpg, std, i, vbuf + offset); offset += tpg_calc_plane_size(tpg, i); } } EXPORT_SYMBOL_GPL(tpg_fillbuffer); MODULE_DESCRIPTION("V4L2 Test Pattern Generator"); MODULE_AUTHOR("Hans Verkuil"); MODULE_LICENSE("GPL"); |