diff options
author | Tor Andersson <tor.andersson@artifex.com> | 2011-04-04 23:35:45 +0200 |
---|---|---|
committer | Tor Andersson <tor.andersson@artifex.com> | 2011-04-04 23:35:45 +0200 |
commit | 7cf6ccee8c6b59d8aac17ab6e4673bcb69f5e8d2 (patch) | |
tree | b329db03bae14fca178add9909b78b050345c140 /xps/xps_tiff.c | |
parent | efc46353676c27b24f2933dce78305796951a01e (diff) | |
download | mupdf-7cf6ccee8c6b59d8aac17ab6e4673bcb69f5e8d2.tar.xz |
Le Roi est mort, vive le Roi!
The run-together words are dead! Long live the underscores!
The postscript inspired naming convention of using all run-together
words has served us well, but it is now time for more readable code.
In this commit I have also added the sed script, rename.sed, that I used
to convert the source. Use it on your patches and application code.
Diffstat (limited to 'xps/xps_tiff.c')
-rw-r--r-- | xps/xps_tiff.c | 78 |
1 files changed, 39 insertions, 39 deletions
diff --git a/xps/xps_tiff.c b/xps/xps_tiff.c index 384c4338..3d905130 100644 --- a/xps/xps_tiff.c +++ b/xps/xps_tiff.c @@ -146,7 +146,7 @@ xps_decode_tiff_uncompressed(struct tiff *tiff, fz_stream *stm, byte *wp, int wl static int xps_decode_tiff_packbits(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen) { - fz_stream *stm = fz_openrld(chain); + fz_stream *stm = fz_open_rld(chain); int n = fz_read(stm, wp, wlen); fz_close(stm); if (n < 0) @@ -157,7 +157,7 @@ xps_decode_tiff_packbits(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen static int xps_decode_tiff_lzw(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen) { - fz_stream *stm = fz_openlzwd(chain, NULL); + fz_stream *stm = fz_open_lzwd(chain, NULL); int n = fz_read(stm, wp, wlen); fz_close(stm); if (n < 0) @@ -167,7 +167,7 @@ xps_decode_tiff_lzw(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen) static int xps_decode_tiff_flate(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen) { - fz_stream *stm = fz_openflated(chain); + fz_stream *stm = fz_open_flated(chain); int n = fz_read(stm, wp, wlen); fz_close(stm); if (n < 0) @@ -180,32 +180,32 @@ xps_decode_tiff_fax(struct tiff *tiff, int comp, fz_stream *chain, byte *wp, int { fz_stream *stm; fz_obj *params; - fz_obj *columns, *rows, *blackis1, *k, *encodedbytealign; + fz_obj *columns, *rows, *black_is_1, *k, *encoded_byte_align; int n; - columns = fz_newint(tiff->imagewidth); - rows = fz_newint(tiff->imagelength); - blackis1 = fz_newbool(tiff->photometric == 0); - k = fz_newint(comp == 4 ? -1 : 0); - encodedbytealign = fz_newbool(comp == 2); - - params = fz_newdict(5); - fz_dictputs(params, "Columns", columns); - fz_dictputs(params, "Rows", rows); - fz_dictputs(params, "BlackIs1", blackis1); - fz_dictputs(params, "K", k); - fz_dictputs(params, "EncodedByteAlign", encodedbytealign); - - fz_dropobj(columns); - fz_dropobj(rows); - fz_dropobj(blackis1); - fz_dropobj(k); - fz_dropobj(encodedbytealign); - - stm = fz_openfaxd(chain, params); + columns = fz_new_int(tiff->imagewidth); + rows = fz_new_int(tiff->imagelength); + black_is_1 = fz_new_bool(tiff->photometric == 0); + k = fz_new_int(comp == 4 ? -1 : 0); + encoded_byte_align = fz_new_bool(comp == 2); + + params = fz_new_dict(5); + fz_dict_puts(params, "Columns", columns); + fz_dict_puts(params, "Rows", rows); + fz_dict_puts(params, "BlackIs1", black_is_1); + fz_dict_puts(params, "K", k); + fz_dict_puts(params, "EncodedByteAlign", encoded_byte_align); + + fz_drop_obj(columns); + fz_drop_obj(rows); + fz_drop_obj(black_is_1); + fz_drop_obj(k); + fz_drop_obj(encoded_byte_align); + + stm = fz_open_faxd(chain, params); n = fz_read(stm, wp, wlen); fz_close(stm); - fz_dropobj(params); + fz_drop_obj(params); if (n < 0) return fz_rethrow(n, "cannot read fax strip"); @@ -215,7 +215,7 @@ xps_decode_tiff_fax(struct tiff *tiff, int comp, fz_stream *chain, byte *wp, int static int xps_decode_tiff_jpeg(struct tiff *tiff, fz_stream *chain, byte *wp, int wlen) { - fz_stream *stm = fz_opendctd(chain, NULL); + fz_stream *stm = fz_open_dctd(chain, NULL); int n = fz_read(stm, wp, wlen); fz_close(stm); if (n < 0) @@ -386,23 +386,23 @@ xps_decode_tiff_strips(struct tiff *tiff) switch (tiff->photometric) { case 0: /* WhiteIsZero -- inverted */ - tiff->colorspace = fz_devicegray; + tiff->colorspace = fz_device_gray; break; case 1: /* BlackIsZero */ - tiff->colorspace = fz_devicegray; + tiff->colorspace = fz_device_gray; break; case 2: /* RGB */ - tiff->colorspace = fz_devicergb; + tiff->colorspace = fz_device_rgb; break; case 3: /* RGBPal */ - tiff->colorspace = fz_devicergb; + tiff->colorspace = fz_device_rgb; break; case 5: /* CMYK */ - tiff->colorspace = fz_devicecmyk; + tiff->colorspace = fz_device_cmyk; break; case 6: /* YCbCr */ /* it's probably a jpeg ... we let jpeg convert to rgb */ - tiff->colorspace = fz_devicergb; + tiff->colorspace = fz_device_rgb; break; default: return fz_throw("unknown photometric: %d", tiff->photometric); @@ -454,7 +454,7 @@ xps_decode_tiff_strips(struct tiff *tiff) rp[i] = bitrev[rp[i]]; /* the strip decoders will close this */ - stm = fz_openmemory(rp, rlen); + stm = fz_open_memory(rp, rlen); switch (tiff->compression) { @@ -824,11 +824,11 @@ xps_decode_tiff(fz_pixmap **imagep, byte *buf, int len) /* Expand into fz_pixmap struct */ - image = fz_newpixmap(tiff.colorspace, 0, 0, tiff.imagewidth, tiff.imagelength); + image = fz_new_pixmap(tiff.colorspace, 0, 0, tiff.imagewidth, tiff.imagelength); image->xres = tiff.xresolution; image->yres = tiff.yresolution; - fz_unpacktile(image, tiff.samples, tiff.samplesperpixel, tiff.bitspersample, tiff.stride, 0); + fz_unpack_tile(image, tiff.samples, tiff.samplesperpixel, tiff.bitspersample, tiff.stride, 0); /* We should only do this on non-pre-multiplied images, but files in the wild are bad */ if (tiff.extrasamples /* == 2 */) @@ -836,14 +836,14 @@ xps_decode_tiff(fz_pixmap **imagep, byte *buf, int len) /* CMYK is a subtractive colorspace, we want additive for premul alpha */ if (image->n == 5) { - fz_pixmap *rgb = fz_newpixmap(fz_devicergb, 0, 0, image->w, image->h); - fz_convertpixmap(image, rgb); + fz_pixmap *rgb = fz_new_pixmap(fz_device_rgb, 0, 0, image->w, image->h); + fz_convert_pixmap(image, rgb); rgb->xres = image->xres; rgb->yres = image->yres; - fz_droppixmap(image); + fz_drop_pixmap(image); image = rgb; } - fz_premultiplypixmap(image); + fz_premultiply_pixmap(image); } /* Clean up scratch memory */ |