/* * Image Scaling Functions * Copyright (c) 2005 David A. Schleef * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include "vs_scanline.h" #include "vs_image.h" #include "gstvideoscaleorc.h" #include #define ROUND_UP_2(x) (((x)+1)&~1) #define ROUND_UP_4(x) (((x)+3)&~3) #define ROUND_UP_8(x) (((x)+7)&~7) void vs_image_scale_nearest_RGBA (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int prev_j; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; prev_j = -1; for (i = 0; i < dest->height; i++) { j = acc >> 16; if (j == prev_j) { memcpy (dest->pixels + i * dest->stride, dest->pixels + (i - 1) * dest->stride, dest->width * 4); } else { gst_videoscale_orc_resample_nearest_u32 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, 0, x_increment, dest->width); } prev_j = j; acc += y_increment; } } void vs_image_scale_linear_RGBA (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int y1; int i; int j; int x; int dest_size; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width * 4; #define LINE(x) ((tmpbuf) + (dest_size)*((x)&1)) acc = 0; gst_videoscale_orc_resample_bilinear_u32 (LINE (0), src->pixels, 0, x_increment, dest->width); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { memcpy (dest->pixels + i * dest->stride, LINE (j), dest_size); } else { if (j > y1) { gst_videoscale_orc_resample_bilinear_u32 (LINE (j), src->pixels + j * src->stride, 0, x_increment, dest->width); y1++; } if (j >= y1) { gst_videoscale_orc_resample_merge_bilinear_u32 (dest->pixels + i * dest->stride, LINE (j + 1), LINE (j), src->pixels + (j + 1) * src->stride, (x >> 8), 0, x_increment, dest->width); y1++; } else { orc_merge_linear_u8 (dest->pixels + i * dest->stride, LINE (j), LINE (j + 1), (x >> 8), dest->width * 4); } } acc += y_increment; } } void vs_image_scale_nearest_RGB (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_RGB (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_RGB (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width * 3; tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_RGB (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_RGB (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_RGB (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_RGB (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_RGB (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_RGB (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_RGB (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_RGB (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_RGB (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } /* YUYV */ void vs_image_scale_nearest_YUYV (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_YUYV (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_YUYV (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = ROUND_UP_4 (dest->width * 2); tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_YUYV (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_YUYV (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_YUYV (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_YUYV (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_YUYV (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_YUYV (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_YUYV (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_YUYV (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_YUYV (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } /* UYVY */ void vs_image_scale_nearest_UYVY (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_UYVY (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_UYVY (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = ROUND_UP_4 (dest->width * 2); tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_UYVY (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_UYVY (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_UYVY (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_UYVY (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_UYVY (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_UYVY (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_UYVY (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_UYVY (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_UYVY (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } /* greyscale */ void vs_image_scale_nearest_Y (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; gst_videoscale_orc_resample_nearest_u8 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, 0, x_increment, dest->width); acc += y_increment; } } void vs_image_scale_linear_Y (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width; tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; y2 = -1; gst_videoscale_orc_resample_bilinear_u8 (tmp1, src->pixels, 0, x_increment, dest->width); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { gst_videoscale_orc_resample_bilinear_u8 (tmp1, src->pixels + j * src->stride, 0, x_increment, dest->width); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { gst_videoscale_orc_resample_bilinear_u8 (tmp2, src->pixels + (j + 1) * src->stride, 0, x_increment, dest->width); y2 = j + 1; } if ((x >> 8) == 0) { memcpy (dest->pixels + i * dest->stride, tmp1, dest->width); } else { orc_merge_linear_u8 (dest->pixels + i * dest->stride, tmp1, tmp2, (x >> 8), dest->width); } } else if (j == y2) { if (j + 1 != y1) { gst_videoscale_orc_resample_bilinear_u8 (tmp1, src->pixels + (j + 1) * src->stride, 0, x_increment, dest->width); y1 = j + 1; } if ((x >> 8) == 0) { memcpy (dest->pixels + i * dest->stride, tmp2, dest->width); } else { orc_merge_linear_u8 (dest->pixels + i * dest->stride, tmp2, tmp1, (x >> 8), dest->width); } } else { gst_videoscale_orc_resample_bilinear_u8 (tmp1, src->pixels + j * src->stride, 0, x_increment, dest->width); y1 = j; gst_videoscale_orc_resample_bilinear_u8 (tmp2, src->pixels + (j + 1) * src->stride, 0, x_increment, dest->width); y2 = (j + 1); if ((x >> 8) == 0) { memcpy (dest->pixels + i * dest->stride, tmp1, dest->width); } else { orc_merge_linear_u8 (dest->pixels + i * dest->stride, tmp1, tmp2, (x >> 8), dest->width); } } } acc += y_increment; } } void vs_image_scale_nearest_Y16 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_Y16 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_Y16 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = 2 * dest->width; tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_Y16 (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_Y16 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_Y16 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_Y16 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_Y16 (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_Y16 (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_Y16 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_Y16 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_Y16 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } /* RGB565 */ void vs_image_scale_nearest_RGB565 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_RGB565 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_RGB565 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width * 2; tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_RGB565 (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_RGB565 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_RGB565 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_RGB565 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_RGB565 (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_RGB565 (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_RGB565 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_RGB565 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_RGB565 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } /* RGB555 */ void vs_image_scale_nearest_RGB555 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int i; int j; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; xacc = 0; vs_scanline_resample_nearest_RGB555 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); acc += y_increment; } } void vs_image_scale_linear_RGB555 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; uint8_t *tmp1; uint8_t *tmp2; int y1; int y2; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width * 2; tmp1 = tmpbuf; tmp2 = tmpbuf + dest_size; acc = 0; xacc = 0; y2 = -1; vs_scanline_resample_linear_RGB555 (tmp1, src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { if (j == y1) { memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } else if (j == y2) { memcpy (dest->pixels + i * dest->stride, tmp2, dest_size); } else { xacc = 0; vs_scanline_resample_linear_RGB555 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; memcpy (dest->pixels + i * dest->stride, tmp1, dest_size); } } else { if (j == y1) { if (j + 1 != y2) { xacc = 0; vs_scanline_resample_linear_RGB555 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = j + 1; } vs_scanline_merge_linear_RGB555 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } else if (j == y2) { if (j + 1 != y1) { xacc = 0; vs_scanline_resample_linear_RGB555 (tmp1, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j + 1; } vs_scanline_merge_linear_RGB555 (dest->pixels + i * dest->stride, tmp2, tmp1, dest->width, x); } else { xacc = 0; vs_scanline_resample_linear_RGB555 (tmp1, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); y1 = j; xacc = 0; vs_scanline_resample_linear_RGB555 (tmp2, src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); y2 = (j + 1); vs_scanline_merge_linear_RGB555 (dest->pixels + i * dest->stride, tmp1, tmp2, dest->width, x); } } acc += y_increment; } } void vs_image_scale_nearest_AYUV64 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf8) { int acc; int y_increment; int x_increment; int i; int j; int prev_j; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); acc = 0; prev_j = -1; for (i = 0; i < dest->height; i++) { j = acc >> 16; if (j == prev_j) { memcpy (dest->pixels + i * dest->stride, dest->pixels + (i - 1) * dest->stride, dest->width * 8); } else { int xacc = 0; vs_scanline_resample_nearest_AYUV64 (dest->pixels + i * dest->stride, src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); } prev_j = j; acc += y_increment; } } void vs_image_scale_linear_AYUV64 (const VSImage * dest, const VSImage * src, uint8_t * tmpbuf) { int acc; int y_increment; int x_increment; int y1; int i; int j; int x; int dest_size; int xacc; if (dest->height == 1) y_increment = 0; else y_increment = ((src->height - 1) << 16) / (dest->height - 1); if (dest->width == 1) x_increment = 0; else x_increment = ((src->width - 1) << 16) / (dest->width - 1); dest_size = dest->width * 8; #undef LINE #define LINE(x) ((guint16 *)((tmpbuf) + (dest_size)*((x)&1))) acc = 0; //gst_videoscale_orc_resample_bilinear_u64 (LINE (0), src->pixels, // 0, x_increment, dest->width); xacc = 0; vs_scanline_resample_linear_AYUV64 ((guint8 *) LINE (0), src->pixels, src->width, dest->width, &xacc, x_increment); y1 = 0; for (i = 0; i < dest->height; i++) { j = acc >> 16; x = acc & 0xffff; if (x == 0) { memcpy (dest->pixels + i * dest->stride, LINE (j), dest_size); } else { if (j > y1) { xacc = 0; vs_scanline_resample_linear_AYUV64 ((guint8 *) LINE (j), src->pixels + j * src->stride, src->width, dest->width, &xacc, x_increment); //gst_videoscale_orc_resample_bilinear_u64 (LINE (j), // src->pixels + j * src->stride, 0, x_increment, dest->width); y1++; } if (j >= y1) { xacc = 0; vs_scanline_resample_linear_AYUV64 ((guint8 *) LINE (j + 1), src->pixels + (j + 1) * src->stride, src->width, dest->width, &xacc, x_increment); orc_merge_linear_u16 ((guint16 *) (dest->pixels + i * dest->stride), LINE (j), LINE (j + 1), 65536 - x, x, dest->width * 4); //gst_videoscale_orc_resample_merge_bilinear_u64 (dest->pixels + // i * dest->stride, LINE (j + 1), LINE (j), // src->pixels + (j + 1) * src->stride, (x >> 8), 0, x_increment, // dest->width); y1++; } else { orc_merge_linear_u16 ((guint16 *) (dest->pixels + i * dest->stride), LINE (j), LINE (j + 1), 65536 - x, x, dest->width * 4); } } acc += y_increment; } }