#include "mupdf/fitz.h" fz_pixmap * fz_keep_pixmap(fz_context *ctx, fz_pixmap *pix) { return (fz_pixmap *)fz_keep_storable(ctx, &pix->storable); } void fz_drop_pixmap(fz_context *ctx, fz_pixmap *pix) { fz_drop_storable(ctx, &pix->storable); } void fz_free_pixmap_imp(fz_context *ctx, fz_storable *pix_) { fz_pixmap *pix = (fz_pixmap *)pix_; if (pix->colorspace) fz_drop_colorspace(ctx, pix->colorspace); if (pix->free_samples) fz_free(ctx, pix->samples); fz_free(ctx, pix); } fz_pixmap * fz_new_pixmap_with_data(fz_context *ctx, fz_colorspace *colorspace, int w, int h, unsigned char *samples) { fz_pixmap *pix; if (w < 0 || h < 0) fz_throw(ctx, FZ_ERROR_GENERIC, "Illegal dimensions for pixmap %d %d", w, h); pix = fz_malloc_struct(ctx, fz_pixmap); FZ_INIT_STORABLE(pix, 1, fz_free_pixmap_imp); pix->x = 0; pix->y = 0; pix->w = w; pix->h = h; pix->interpolate = 1; pix->xres = 96; pix->yres = 96; pix->colorspace = NULL; pix->n = 1; if (colorspace) { pix->colorspace = fz_keep_colorspace(ctx, colorspace); pix->n = 1 + colorspace->n; } pix->samples = samples; if (samples) { pix->free_samples = 0; } else { fz_try(ctx) { if (pix->w + pix->n - 1 > INT_MAX / pix->n) fz_throw(ctx, FZ_ERROR_GENERIC, "overly wide image"); pix->samples = fz_malloc_array(ctx, pix->h, pix->w * pix->n); } fz_catch(ctx) { if (colorspace) fz_drop_colorspace(ctx, colorspace); fz_free(ctx, pix); fz_rethrow(ctx); } pix->free_samples = 1; } return pix; } fz_pixmap * fz_new_pixmap(fz_context *ctx, fz_colorspace *colorspace, int w, int h) { return fz_new_pixmap_with_data(ctx, colorspace, w, h, NULL); } fz_pixmap * fz_new_pixmap_with_bbox(fz_context *ctx, fz_colorspace *colorspace, const fz_irect *r) { fz_pixmap *pixmap; pixmap = fz_new_pixmap(ctx, colorspace, r->x1 - r->x0, r->y1 - r->y0); pixmap->x = r->x0; pixmap->y = r->y0; return pixmap; } fz_pixmap * fz_new_pixmap_with_bbox_and_data(fz_context *ctx, fz_colorspace *colorspace, const fz_irect *r, unsigned char *samples) { fz_pixmap *pixmap = fz_new_pixmap_with_data(ctx, colorspace, r->x1 - r->x0, r->y1 - r->y0, samples); pixmap->x = r->x0; pixmap->y = r->y0; return pixmap; } fz_irect * fz_pixmap_bbox(fz_context *ctx, fz_pixmap *pix, fz_irect *bbox) { bbox->x0 = pix->x; bbox->y0 = pix->y; bbox->x1 = pix->x + pix->w; bbox->y1 = pix->y + pix->h; return bbox; } fz_irect * fz_pixmap_bbox_no_ctx(fz_pixmap *pix, fz_irect *bbox) { bbox->x0 = pix->x; bbox->y0 = pix->y; bbox->x1 = pix->x + pix->w; bbox->y1 = pix->y + pix->h; return bbox; } int fz_pixmap_width(fz_context *ctx, fz_pixmap *pix) { return pix->w; } int fz_pixmap_height(fz_context *ctx, fz_pixmap *pix) { return pix->h; } void fz_clear_pixmap(fz_context *ctx, fz_pixmap *pix) { memset(pix->samples, 0, (unsigned int)(pix->w * pix->h * pix->n)); } void fz_clear_pixmap_with_value(fz_context *ctx, fz_pixmap *pix, int value) { if (value == 255) { memset(pix->samples, 255, (unsigned int)(pix->w * pix->h * pix->n)); } else { int k, x, y; unsigned char *s = pix->samples; for (y = 0; y < pix->h; y++) { for (x = 0; x < pix->w; x++) { for (k = 0; k < pix->n - 1; k++) *s++ = value; *s++ = 255; } } } } void fz_copy_pixmap_rect(fz_context *ctx, fz_pixmap *dest, fz_pixmap *src, const fz_irect *b) { const unsigned char *srcp; unsigned char *destp; int x, y, w, destspan, srcspan; fz_irect local_b, bb; local_b = *b; fz_intersect_irect(&local_b, fz_pixmap_bbox(ctx, dest, &bb)); fz_intersect_irect(&local_b, fz_pixmap_bbox(ctx, src, &bb)); w = local_b.x1 - local_b.x0; y = local_b.y1 - local_b.y0; if (w <= 0 || y <= 0) return; srcspan = src->w * src->n; srcp = src->samples + (unsigned int)(srcspan * (local_b.y0 - src->y) + src->n * (local_b.x0 - src->x)); destspan = dest->w * dest->n; destp = dest->samples + (unsigned int)(destspan * (local_b.y0 - dest->y) + dest->n * (local_b.x0 - dest->x)); if (src->n == dest->n) { w *= src->n; do { memcpy(destp, srcp, w); srcp += srcspan; destp += destspan; } while (--y); } else if (src->n == 2 && dest->n == 4) { /* Copy, and convert from grey+alpha to rgb+alpha */ srcspan -= w*2; destspan -= w*4; do { for (x = w; x > 0; x--) { unsigned char v = *srcp++; unsigned char a = *srcp++; *destp++ = v; *destp++ = v; *destp++ = v; *destp++ = a; } srcp += srcspan; destp += destspan; } while (--y); } else if (src->n == 4 && dest->n == 2) { /* Copy, and convert from rgb+alpha to grey+alpha */ srcspan -= w*4; destspan -= w*2; do { for (x = w; x > 0; x--) { int v; v = *srcp++; v += *srcp++; v += *srcp++; *destp++ = (unsigned char)((v+1)/3); *destp++ = *srcp++; } srcp += srcspan; destp += destspan; } while (--y); } else { /* FIXME: Crap conversion */ int z; int sn = src->n-1; int dn = dest->n-1; srcspan -= w*src->n; destspan -= w*dest->n; do { for (x = w; x > 0; x--) { int v = 0; for (z = sn; z > 0; z--) v += *srcp++; v = (v * dn + (sn>>1)) / sn; for (z = dn; z > 0; z--) *destp++ = (unsigned char)v; *destp++ = *srcp++; } srcp += srcspan; destp += destspan; } while (--y); } } void fz_clear_pixmap_rect_with_value(fz_context *ctx, fz_pixmap *dest, int value, const fz_irect *b) { unsigned char *destp; int x, y, w, k, destspan; fz_irect bb; fz_irect local_b = *b; fz_intersect_irect(&local_b, fz_pixmap_bbox(ctx, dest, &bb)); w = local_b.x1 - local_b.x0; y = local_b.y1 - local_b.y0; if (w <= 0 || y <= 0) return; destspan = dest->w * dest->n; destp = dest->samples + (unsigned int)(destspan * (local_b.y0 - dest->y) + dest->n * (local_b.x0 - dest->x)); if (value == 255) do { memset(destp, 255, (unsigned int)(w * dest->n)); destp += destspan; } while (--y); else do { unsigned char *s = destp; for (x = 0; x < w; x++) { for (k = 0; k < dest->n - 1; k++) *s++ = value; *s++ = 255; } destp += destspan; } while (--y); } void fz_premultiply_pixmap(fz_context *ctx, fz_pixmap *pix) { unsigned char *s = pix->samples; unsigned char a; int k, x, y; for (y = 0; y < pix->h; y++) { for (x = 0; x < pix->w; x++) { a = s[pix->n - 1]; for (k = 0; k < pix->n - 1; k++) s[k] = fz_mul255(s[k], a); s += pix->n; } } } void fz_unmultiply_pixmap(fz_context *ctx, fz_pixmap *pix) { unsigned char *s = pix->samples; int a, inva; int k, x, y; for (y = 0; y < pix->h; y++) { for (x = 0; x < pix->w; x++) { a = s[pix->n - 1]; inva = a ? 255 * 256 / a : 0; for (k = 0; k < pix->n - 1; k++) s[k] = (s[k] * inva) >> 8; s += pix->n; } } } fz_pixmap * fz_alpha_from_gray(fz_context *ctx, fz_pixmap *gray, int luminosity) { fz_pixmap *alpha; unsigned char *sp, *dp; int len; fz_irect bbox; assert(gray->n == 2); alpha = fz_new_pixmap_with_bbox(ctx, NULL, fz_pixmap_bbox(ctx, gray, &bbox)); dp = alpha->samples; sp = gray->samples; if (!luminosity) sp ++; len = gray->w * gray->h; while (len--) { *dp++ = sp[0]; sp += 2; } return alpha; } void fz_invert_pixmap(fz_context *ctx, fz_pixmap *pix) { unsigned char *s = pix->samples; int k, x, y; for (y = 0; y < pix->h; y++) { for (x = 0; x < pix->w; x++) { for (k = 0; k < pix->n - 1; k++) s[k] = 255 - s[k]; s += pix->n; } } } void fz_invert_pixmap_rect(fz_pixmap *image, const fz_irect *rect) { unsigned char *p; int x, y, n; int x0 = fz_clampi(rect->x0 - image->x, 0, image->w - 1); int x1 = fz_clampi(rect->x1 - image->x, 0, image->w - 1); int y0 = fz_clampi(rect->y0 - image->y, 0, image->h - 1); int y1 = fz_clampi(rect->y1 - image->y, 0, image->h - 1); for (y = y0; y < y1; y++) { p = image->samples + (unsigned int)((y * image->w + x0) * image->n); for (x = x0; x < x1; x++) { for (n = image->n; n > 1; n--, p++) *p = 255 - *p; p++; } } } void fz_gamma_pixmap(fz_context *ctx, fz_pixmap *pix, float gamma) { unsigned char gamma_map[256]; unsigned char *s = pix->samples; int k, x, y; for (k = 0; k < 256; k++) gamma_map[k] = pow(k / 255.0f, gamma) * 255; for (y = 0; y < pix->h; y++) { for (x = 0; x < pix->w; x++) { for (k = 0; k < pix->n - 1; k++) s[k] = gamma_map[s[k]]; s += pix->n; } } } /* * Write pixmap to PNM file (without alpha channel) */ void fz_output_pnm_header(fz_output *out, int w, int h, int n) { fz_context *ctx = out->ctx; if (n != 1 && n != 2 && n != 4) fz_throw(ctx, FZ_ERROR_GENERIC, "pixmap must be grayscale or rgb to write as pnm"); if (n == 1 || n == 2) fz_printf(out, "P5\n"); if (n == 4) fz_printf(out, "P6\n"); fz_printf(out, "%d %d\n", w, h); fz_printf(out, "255\n"); } void fz_output_pnm_band(fz_output *out, int w, int h, int n, int band, int bandheight, unsigned char *p) { int len; int start = band * bandheight; int end = start + bandheight; if (end > h) end = h; end -= start; len = w * end; switch (n) { case 1: fz_write(out, p, len); break; case 2: while (len--) { fz_putc(out, p[0]); p += 2; } break; case 4: while (len--) { fz_putc(out, p[0]); fz_putc(out, p[1]); fz_putc(out, p[2]); p += 4; } } } void fz_write_pnm(fz_context *ctx, fz_pixmap *pixmap, char *filename) { fz_output *out = fz_new_output_to_filename(ctx, filename); fz_output_pnm_header(out, pixmap->w, pixmap->h, pixmap->n); fz_output_pnm_band(out, pixmap->w, pixmap->h, pixmap->n, 0, pixmap->h, pixmap->samples); fz_close_output(out); } /* * Write pixmap to PAM file (with or without alpha channel) */ void fz_output_pam_header(fz_output *out, int w, int h, int n, fz_colorspace *cs, int savealpha) { int sn = n; int dn = n; if (!savealpha && dn > 1) dn--; fz_printf(out, "P7\n"); fz_printf(out, "WIDTH %d\n", w); fz_printf(out, "HEIGHT %d\n", h); fz_printf(out, "DEPTH %d\n", dn); fz_printf(out, "MAXVAL 255\n"); if (cs) fz_printf(out, "# COLORSPACE %s\n", cs->name); switch (dn) { case 1: fz_printf(out, "TUPLTYPE GRAYSCALE\n"); break; case 2: if (sn == 2) fz_printf(out, "TUPLTYPE GRAYSCALE_ALPHA\n"); break; case 3: if (sn == 4) fz_printf(out, "TUPLTYPE RGB\n"); break; case 4: if (sn == 4) fz_printf(out, "TUPLTYPE RGB_ALPHA\n"); break; } fz_printf(out, "ENDHDR\n"); } void fz_output_pam_band(fz_output *out, int w, int h, int n, int band, int bandheight, unsigned char *sp, int savealpha) { int y, x, k; int start = band * bandheight; int end = start + bandheight; int sn = n; int dn = n; if (!savealpha && dn > 1) dn--; if (end > h) end = h; end -= start; for (y = 0; y < end; y++) { x = w; while (x--) { for (k = 0; k < dn; k++) fz_putc(out, sp[k]); sp += sn; } } } void fz_write_pam(fz_context *ctx, fz_pixmap *pixmap, char *filename, int savealpha) { fz_output *out = fz_new_output_to_filename(ctx, filename); fz_output_pam_header(out, pixmap->w, pixmap->h, pixmap->n, pixmap->colorspace, savealpha); fz_output_pam_band(out, pixmap->w, pixmap->h, pixmap->n, 0, pixmap->h, pixmap->samples, savealpha); fz_close_output(out); } /* * Write pixmap to PNG file (with or without alpha channel) */ #include static inline void big32(unsigned char *buf, unsigned int v) { buf[0] = (v >> 24) & 0xff; buf[1] = (v >> 16) & 0xff; buf[2] = (v >> 8) & 0xff; buf[3] = (v) & 0xff; } static void putchunk(char *tag, unsigned char *data, int size, fz_output *out) { unsigned int sum; fz_write_int32be(out, size); fz_write(out, tag, 4); fz_write(out, data, size); sum = crc32(0, NULL, 0); sum = crc32(sum, (unsigned char*)tag, 4); sum = crc32(sum, data, size); fz_write_int32be(out, sum); } void fz_write_png(fz_context *ctx, fz_pixmap *pixmap, char *filename, int savealpha) { fz_output *out = fz_new_output_to_filename(ctx, filename); fz_png_output_context *poc = NULL; fz_var(poc); fz_try(ctx) { poc = fz_output_png_header(out, pixmap->w, pixmap->h, pixmap->n, savealpha); fz_output_png_band(out, pixmap->w, pixmap->h, pixmap->n, 0, pixmap->h, pixmap->samples, savealpha, poc); } fz_always(ctx) { fz_output_png_trailer(out, poc); fz_close_output(out); } fz_catch(ctx) { fz_rethrow(ctx); } } void fz_output_png(fz_output *out, const fz_pixmap *pixmap, int savealpha) { fz_png_output_context *poc; fz_context *ctx; if (!out) return; ctx = out->ctx; poc = fz_output_png_header(out, pixmap->w, pixmap->h, pixmap->n, savealpha); fz_try(ctx) { fz_output_png_band(out, pixmap->w, pixmap->h, pixmap->n, 0, pixmap->h, pixmap->samples, savealpha, poc); } fz_always(ctx) { fz_output_png_trailer(out, poc); } fz_catch(ctx) { fz_rethrow(ctx); } } struct fz_png_output_context_s { unsigned char *udata; unsigned char *cdata; uLong usize, csize; z_stream stream; }; fz_png_output_context * fz_output_png_header(fz_output *out, int w, int h, int n, int savealpha) { static const unsigned char pngsig[8] = { 137, 80, 78, 71, 13, 10, 26, 10 }; unsigned char head[13]; fz_context *ctx; int color; fz_png_output_context *poc; if (!out) return NULL; ctx = out->ctx; if (n != 1 && n != 2 && n != 4) fz_throw(ctx, FZ_ERROR_GENERIC, "pixmap must be grayscale or rgb to write as png"); poc = fz_malloc_struct(ctx, fz_png_output_context); if (!savealpha && n > 1) n--; switch (n) { default: case 1: color = 0; break; case 2: color = 4; break; case 3: color = 2; break; case 4: color = 6; break; } big32(head+0, w); big32(head+4, h); head[8] = 8; /* depth */ head[9] = color; head[10] = 0; /* compression */ head[11] = 0; /* filter */ head[12] = 0; /* interlace */ fz_write(out, pngsig, 8); putchunk("IHDR", head, 13, out); return poc; } void fz_output_png_band(fz_output *out, int w, int h, int n, int band, int bandheight, unsigned char *sp, int savealpha, fz_png_output_context *poc) { unsigned char *dp; int y, x, k, sn, dn, err, finalband; fz_context *ctx; if (!out || !sp || !poc) return; ctx = out->ctx; if (n != 1 && n != 2 && n != 4) fz_throw(ctx, FZ_ERROR_GENERIC, "pixmap must be grayscale or rgb to write as png"); band *= bandheight; finalband = (band+bandheight >= h); if (finalband) bandheight = h - band; sn = n; dn = n; if (!savealpha && dn > 1) dn--; if (poc->udata == NULL) { poc->usize = (w * dn + 1) * bandheight; /* Sadly the bound returned by compressBound is just for a * single usize chunk; if you compress a sequence of them * the buffering can result in you suddenly getting a block * larger than compressBound outputted in one go, even if you * take all the data out each time. */ poc->csize = compressBound(poc->usize); fz_try(ctx) { poc->udata = fz_malloc(ctx, poc->usize); poc->cdata = fz_malloc(ctx, poc->csize); } fz_catch(ctx) { fz_free(ctx, poc->udata); poc->udata = NULL; poc->cdata = NULL; fz_rethrow(ctx); } err = deflateInit(&poc->stream, Z_DEFAULT_COMPRESSION); if (err != Z_OK) fz_throw(ctx, FZ_ERROR_GENERIC, "compression error %d", err); } dp = poc->udata; for (y = 0; y < bandheight; y++) { *dp++ = 1; /* sub prediction filter */ for (x = 0; x < w; x++) { for (k = 0; k < dn; k++) { if (x == 0) dp[k] = sp[k]; else dp[k] = sp[k] - sp[k-sn]; } sp += sn; dp += dn; } } poc->stream.next_in = (Bytef*)poc->udata; poc->stream.avail_in = (uInt)(dp - poc->udata); do { poc->stream.next_out = poc->cdata; poc->stream.avail_out = (uInt)poc->csize; if (!finalband) { err = deflate(&poc->stream, Z_NO_FLUSH); if (err != Z_OK) fz_throw(ctx, FZ_ERROR_GENERIC, "compression error %d", err); } else { err = deflate(&poc->stream, Z_FINISH); if (err != Z_STREAM_END) fz_throw(ctx, FZ_ERROR_GENERIC, "compression error %d", err); } if (poc->stream.next_out != poc->cdata) putchunk("IDAT", poc->cdata, poc->stream.next_out - poc->cdata, out); } while (poc->stream.avail_out == 0); } void fz_output_png_trailer(fz_output *out, fz_png_output_context *poc) { unsigned char block[1]; int err; fz_context *ctx; if (!out || !poc) return; ctx = out->ctx; err = deflateEnd(&poc->stream); if (err != Z_OK) fz_throw(ctx, FZ_ERROR_GENERIC, "compression error %d", err); fz_free(ctx, poc->cdata); fz_free(ctx, poc->udata); fz_free(ctx, poc); putchunk("IEND", block, 0, out); } fz_buffer * fz_image_as_png(fz_context *ctx, fz_image *image, int w, int h) { fz_pixmap *pix = fz_image_get_pixmap(ctx, image, image->w, image->h); fz_buffer *buf = NULL; fz_output *out; fz_var(buf); fz_var(out); fz_try(ctx) { if (pix->colorspace != fz_device_gray(ctx) || pix->colorspace != fz_device_rgb(ctx)) { fz_pixmap *pix2 = fz_new_pixmap(ctx, fz_device_rgb(ctx), pix->w, pix->h); fz_convert_pixmap(ctx, pix2, pix); fz_drop_pixmap(ctx, pix); pix = pix2; } buf = fz_new_buffer(ctx, 1024); out = fz_new_output_with_buffer(ctx, buf); fz_output_png(out, pix, 0); } fz_always(ctx) { fz_close_output(out); fz_drop_pixmap(ctx, pix); } fz_catch(ctx) { fz_drop_buffer(ctx, buf); fz_rethrow(ctx); } return buf; } /* * Write pixmap to TGA file (with or without alpha channel) */ static inline void tga_put_pixel(unsigned char *data, int n, int is_bgr, fz_output *out) { if (n >= 3 && !is_bgr) { fz_putc(out, data[2]); fz_putc(out, data[1]); fz_putc(out, data[0]); if (n == 4) fz_putc(out, data[3]); return; } if (n == 2) { fz_putc(out, data[0]); fz_putc(out, data[0]); } fz_write(out, data, n); } void fz_write_tga(fz_context *ctx, fz_pixmap *pixmap, const char *filename, int savealpha) { fz_output *out; unsigned char head[18]; int n = pixmap->n; int d = savealpha || n == 1 ? n : n - 1; int is_bgr = pixmap->colorspace == fz_device_bgr(ctx); int k; if (pixmap->colorspace && pixmap->colorspace != fz_device_gray(ctx) && pixmap->colorspace != fz_device_rgb(ctx) && pixmap->colorspace != fz_device_bgr(ctx)) { fz_throw(ctx, FZ_ERROR_GENERIC, "pixmap must be grayscale or rgb to write as tga"); } out = fz_new_output_to_filename(ctx, filename); memset(head, 0, sizeof(head)); head[2] = n == 4 ? 10 : 11; head[12] = pixmap->w & 0xFF; head[13] = (pixmap->w >> 8) & 0xFF; head[14] = pixmap->h & 0xFF; head[15] = (pixmap->h >> 8) & 0xFF; head[16] = d * 8; head[17] = savealpha && n > 1 ? 8 : 0; if (savealpha && d == 2) head[16] = 32; fz_write(out, head, sizeof(head)); for (k = 1; k <= pixmap->h; k++) { int i, j; unsigned char *line = pixmap->samples + pixmap->w * n * (pixmap->h - k); for (i = 0, j = 1; i < pixmap->w; i += j, j = 1) { for (; i + j < pixmap->w && j < 128 && !memcmp(line + i * n, line + (i + j) * n, d); j++); if (j > 1) { fz_putc(out, j - 1 + 128); tga_put_pixel(line + i * n, d, is_bgr, out); } else { for (; i + j < pixmap->w && j <= 128 && memcmp(line + (i + j - 1) * n, line + (i + j) * n, d) != 0; j++); if (i + j < pixmap->w || j > 128) j--; fz_putc(out, j - 1); for (; j > 0; j--, i++) tga_put_pixel(line + i * n, d, is_bgr, out); } } } fz_write(out, "\0\0\0\0\0\0\0\0TRUEVISION-XFILE.\0", 26); fz_close_output(out); } unsigned int fz_pixmap_size(fz_context *ctx, fz_pixmap * pix) { if (pix == NULL) return 0; return sizeof(*pix) + pix->n * pix->w * pix->h; } fz_pixmap * fz_new_pixmap_from_8bpp_data(fz_context *ctx, int x, int y, int w, int h, unsigned char *sp, int span) { fz_pixmap *pixmap = fz_new_pixmap(ctx, NULL, w, h); pixmap->x = x; pixmap->y = y; for (y = 0; y < h; y++) memcpy(pixmap->samples + y * w, sp + y * span, w); return pixmap; } fz_pixmap * fz_new_pixmap_from_1bpp_data(fz_context *ctx, int x, int y, int w, int h, unsigned char *sp, int span) { fz_pixmap *pixmap = fz_new_pixmap(ctx, NULL, w, h); pixmap->x = x; pixmap->y = y; for (y = 0; y < h; y++) { unsigned char *out = pixmap->samples + y * w; unsigned char *in = sp + y * span; unsigned char bit = 0x80; int ww = w; while (ww--) { *out++ = (*in & bit) ? 255 : 0; bit >>= 1; if (bit == 0) bit = 0x80, in++; } } return pixmap; } #ifdef ARCH_ARM static void fz_subsample_pixmap_ARM(unsigned char *ptr, int w, int h, int f, int factor, int n, int fwd, int back, int back2, int fwd2, int divX, int back4, int fwd4, int fwd3, int divY, int back5, int divXY) __attribute__((naked)); static void fz_subsample_pixmap_ARM(unsigned char *ptr, int w, int h, int f, int factor, int n, int fwd, int back, int back2, int fwd2, int divX, int back4, int fwd4, int fwd3, int divY, int back5, int divXY) { asm volatile( ENTER_ARM "stmfd r13!,{r1,r4-r11,r14} \n" "@STACK:r1,<9>,factor,n,fwd,back,back2,fwd2,divX,back4,fwd4,fwd3,divY,back5,divXY\n" "@ r0 = src = ptr \n" "@ r1 = w \n" "@ r2 = h \n" "@ r3 = f \n" "mov r9, r0 @ r9 = dst = ptr \n" "ldr r6, [r13,#4*12] @ r6 = fwd \n" "ldr r7, [r13,#4*13] @ r7 = back \n" "subs r2, r2, r3 @ r2 = h -= f \n" "blt 11f @ Skip if less than a full row \n" "1: @ for (y = h; y > 0; y--) { \n" "ldr r1, [r13] @ r1 = w \n" "subs r1, r1, r3 @ r1 = w -= f \n" "blt 6f @ Skip if less than a full col \n" "ldr r4, [r13,#4*10] @ r4 = factor \n" "ldr r8, [r13,#4*14] @ r8 = back2 \n" "ldr r12,[r13,#4*15] @ r12= fwd2 \n" "2: @ for (x = w; x > 0; x--) { \n" "ldr r5, [r13,#4*11] @ for (nn = n; nn > 0; n--) { \n" "3: @ \n" "mov r14,#0 @ r14= v = 0 \n" "sub r5, r5, r3, LSL #8 @ for (xx = f; xx > 0; x--) { \n" "4: @ \n" "add r5, r5, r3, LSL #16 @ for (yy = f; yy > 0; y--) { \n" "5: @ \n" "ldrb r11,[r0], r6 @ r11= *src src += fwd \n" "subs r5, r5, #1<<16 @ xx-- \n" "add r14,r14,r11 @ v += r11 \n" "bgt 5b @ } \n" "sub r0, r0, r7 @ src -= back \n" "adds r5, r5, #1<<8 @ yy-- \n" "blt 4b @ } \n" "mov r14,r14,LSR r4 @ r14 = v >>= factor \n" "strb r14,[r9], #1 @ *d++ = r14 \n" "sub r0, r0, r8 @ s -= back2 \n" "subs r5, r5, #1 @ n-- \n" "bgt 3b @ } \n" "add r0, r0, r12 @ s += fwd2 \n" "subs r1, r1, r3 @ x -= f \n" "bge 2b @ } \n" "6: @ Less than a full column left \n" "adds r1, r1, r3 @ x += f \n" "beq 11f @ if (x == 0) next row \n" "@ r0 = src \n" "@ r1 = x \n" "@ r2 = y \n" "@ r3 = f \n" "@ r4 = factor \n" "@ r6 = fwd \n" "@ r7 = back \n" "@STACK:r1,<9>,factor,n,fwd,back,back2,fwd2,divX,back4,fwd4,fwd3,divY,back5,divXY\n" "ldr r5, [r13,#4*11] @ for (nn = n; nn > 0; n--) { \n" "ldr r4, [r13,#4*16] @ r4 = divX \n" "ldr r8, [r13,#4*17] @ r8 = back4 \n" "ldr r12,[r13,#4*18] @ r12= fwd4 \n" "8: @ \n" "mov r14,#0 @ r14= v = 0 \n" "sub r5, r5, r1, LSL #8 @ for (xx = x; xx > 0; x--) { \n" "9: @ \n" "add r5, r5, r3, LSL #16 @ for (yy = f; yy > 0; y--) { \n" "10: @ \n" "ldrb r11,[r0], r6 @ r11= *src src += fwd \n" "subs r5, r5, #1<<16 @ xx-- \n" "add r14,r14,r11 @ v += r11 \n" "bgt 10b @ } \n" "sub r0, r0, r7 @ src -= back \n" "adds r5, r5, #1<<8 @ yy-- \n" "blt 9b @ } \n" "mul r14,r4, r14 @ r14= v *= divX \n" "mov r14,r14,LSR #16 @ r14= v >>= 16 \n" "strb r14,[r9], #1 @ *d++ = r14 \n" "sub r0, r0, r8 @ s -= back4 \n" "subs r5, r5, #1 @ n-- \n" "bgt 8b @ } \n" "add r0, r0, r12 @ s += fwd4 \n" "11: @ \n" "ldr r14,[r13,#4*19] @ r14 = fwd3 \n" "subs r2, r2, r3 @ h -= f \n" "add r0, r0, r14 @ s += fwd3 \n" "bge 1b @ } \n" "adds r2, r2, r3 @ h += f \n" "beq 21f @ if no stray row, end \n" "@ So doing one last (partial) row \n" "@STACK:r1,<9>,factor,n,fwd,back,back2,fwd2,divX,back4,fwd4,fwd3,divY,back5,divXY\n" "@ r0 = src = ptr \n" "@ r1 = w \n" "@ r2 = h \n" "@ r3 = f \n" "@ r4 = factor \n" "@ r5 = n \n" "@ r6 = fwd \n" "12: @ for (y = h; y > 0; y--) { \n" "ldr r1, [r13] @ r1 = w \n" "ldr r7, [r13,#4*21] @ r7 = back5 \n" "ldr r8, [r13,#4*14] @ r8 = back2 \n" "subs r1, r1, r3 @ r1 = w -= f \n" "blt 17f @ Skip if less than a full col \n" "ldr r4, [r13,#4*20] @ r4 = divY \n" "ldr r12,[r13,#4*15] @ r12= fwd2 \n" "13: @ for (x = w; x > 0; x--) { \n" "ldr r5, [r13,#4*11] @ for (nn = n; nn > 0; n--) { \n" "14: @ \n" "mov r14,#0 @ r14= v = 0 \n" "sub r5, r5, r3, LSL #8 @ for (xx = f; xx > 0; x--) { \n" "15: @ \n" "add r5, r5, r2, LSL #16 @ for (yy = y; yy > 0; y--) { \n" "16: @ \n" "ldrb r11,[r0], r6 @ r11= *src src += fwd \n" "subs r5, r5, #1<<16 @ xx-- \n" "add r14,r14,r11 @ v += r11 \n" "bgt 16b @ } \n" "sub r0, r0, r7 @ src -= back5 \n" "adds r5, r5, #1<<8 @ yy-- \n" "blt 15b @ } \n" "mul r14,r4, r14 @ r14 = x *= divY \n" "mov r14,r14,LSR #16 @ r14 = v >>= 16 \n" "strb r14,[r9], #1 @ *d++ = r14 \n" "sub r0, r0, r8 @ s -= back2 \n" "subs r5, r5, #1 @ n-- \n" "bgt 14b @ } \n" "add r0, r0, r12 @ s += fwd2 \n" "subs r1, r1, r3 @ x -= f \n" "bge 13b @ } \n" "17: @ Less than a full column left \n" "adds r1, r1, r3 @ x += f \n" "beq 21f @ if (x == 0) end \n" "@ r0 = src \n" "@ r1 = x \n" "@ r2 = y \n" "@ r3 = f \n" "@ r4 = factor \n" "@ r6 = fwd \n" "@ r7 = back5 \n" "@ r8 = back2 \n" "@STACK:r1,<9>,factor,n,fwd,back,back2,fwd2,divX,back4,fwd4,fwd3,divY,back5,divXY\n" "ldr r4, [r13,#4*22] @ r4 = divXY \n" "ldr r5, [r13,#4*11] @ for (nn = n; nn > 0; n--) { \n" "18: @ \n" "mov r14,#0 @ r14= v = 0 \n" "sub r5, r5, r1, LSL #8 @ for (xx = x; xx > 0; x--) { \n" "19: @ \n" "add r5, r5, r2, LSL #16 @ for (yy = y; yy > 0; y--) { \n" "20: @ \n" "ldrb r11,[r0],r6 @ r11= *src src += fwd \n" "subs r5, r5, #1<<16 @ xx-- \n" "add r14,r14,r11 @ v += r11 \n" "bgt 20b @ } \n" "sub r0, r0, r7 @ src -= back5 \n" "adds r5, r5, #1<<8 @ yy-- \n" "blt 19b @ } \n" "mul r14,r4, r14 @ r14= v *= divX \n" "mov r14,r14,LSR #16 @ r14= v >>= 16 \n" "strb r14,[r9], #1 @ *d++ = r14 \n" "sub r0, r0, r8 @ s -= back2 \n" "subs r5, r5, #1 @ n-- \n" "bgt 18b @ } \n" "21: @ \n" "ldmfd r13!,{r1,r4-r11,PC} @ pop, return to thumb \n" ENTER_THUMB ); } #endif void fz_subsample_pixmap(fz_context *ctx, fz_pixmap *tile, int factor) { int dst_w, dst_h, w, h, fwd, fwd2, fwd3, back, back2, x, y, n, xx, yy, nn, f; unsigned char *s, *d; if (!tile) return; s = d = tile->samples; f = 1<w; h = tile->h; n = tile->n; dst_w = (w + f-1)>>factor; dst_h = (h + f-1)>>factor; fwd = w*n; back = f*fwd-n; back2 = f*n-1; fwd2 = (f-1)*n; fwd3 = (f-1)*fwd; factor *= 2; #ifdef ARCH_ARM { int strayX = w%f; int divX = (strayX ? 65536/(strayX*f) : 0); int fwd4 = (strayX-1) * n; int back4 = strayX*n-1; int strayY = h%f; int divY = (strayY ? 65536/(strayY*f) : 0); int back5 = fwd * strayY - n; int divXY = (strayY*strayX ? 65536/(strayX*strayY) : 0); fz_subsample_pixmap_ARM(s, w, h, f, factor, n, fwd, back, back2, fwd2, divX, back4, fwd4, fwd3, divY, back5, divXY); } #else for (y = h - f; y >= 0; y -= f) { for (x = w - f; x >= 0; x -= f) { for (nn = n; nn > 0; nn--) { int v = 0; for (xx = f; xx > 0; xx--) { for (yy = f; yy > 0; yy--) { v += *s; s += fwd; } s -= back; } *d++ = v >> factor; s -= back2; } s += fwd2; } /* Do any strays */ x += f; if (x > 0) { int div = x * f; int fwd4 = (x-1) * n; int back4 = x*n-1; for (nn = n; nn > 0; nn--) { int v = 0; for (xx = x; xx > 0; xx--) { for (yy = f; yy > 0; yy--) { v += *s; s += fwd; } s -= back; } *d++ = v / div; s -= back4; } s += fwd4; } s += fwd3; } /* Do any stray line */ y += f; if (y > 0) { int div = y * f; int back5 = fwd * y - n; for (x = w - f; x >= 0; x -= f) { for (nn = n; nn > 0; nn--) { int v = 0; for (xx = f; xx > 0; xx--) { for (yy = y; yy > 0; yy--) { v += *s; s += fwd; } s -= back5; } *d++ = v / div; s -= back2; } s += fwd2; } /* Do any stray at the end of the stray line */ x += f; if (x > 0) { div = x * y; for (nn = n; nn > 0; nn--) { int v = 0; for (xx = x; xx > 0; xx--) { for (yy = y; yy > 0; yy--) { v += *s; s += fwd; } s -= back5; } *d++ = v / div; s -= back2; } } } #endif tile->w = dst_w; tile->h = dst_h; tile->samples = fz_resize_array(ctx, tile->samples, dst_w * n, dst_h); } void fz_pixmap_set_resolution(fz_pixmap *pix, int res) { pix->xres = res; pix->yres = res; } void fz_md5_pixmap(fz_pixmap *pix, unsigned char digest[16]) { fz_md5 md5; fz_md5_init(&md5); if (pix) fz_md5_update(&md5, pix->samples, pix->w * pix->h * pix->n); fz_md5_final(&md5, digest); }