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// uJPEG (MicroJPEG) -- KeyJ's Small Baseline JPEG Decoder
// based on NanoJPEG -- KeyJ's Tiny Baseline JPEG Decoder
// version 1.3.5 (2016-11-14)
// Copyright (c) 2009-2016 Martin J. Fiedler <martin.fiedler@gmx.net>
// published under the terms of the MIT license
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// 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 "pch.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "ujpeg.h"
/* UJ_NODECODE_BLOCK_SIZE: if #defined, this specifies the amount of bytes
* to load from disk if ujDecodeFile() is used after ujDisableDecoding().
* This will speed up checking of large files, because not the whole file has
* to be read, but just a small portion of it. On the other hand, it will also
* break checking of files where the actual image data starts after this point
* (though it's questionable if any real-world file would ever trigger that). */
#define UJ_NODECODE_BLOCK_SIZE (256 * 1024)
#ifdef _MSC_VER
#define UJ_INLINE static __inline
#define UJ_FORCE_INLINE static __forceinline
#else
#define UJ_INLINE static inline
#define UJ_FORCE_INLINE static inline
#endif
#ifdef __cplusplus
extern "C" {
#endif
typedef struct _uj_code {
unsigned char bits, code;
} ujVLCCode;
typedef struct _uj_cmp {
int width, height;
int stride;
unsigned char* pixels;
int cid;
int ssx, ssy;
int qtsel;
int actabsel, dctabsel;
int dcpred;
} ujComponent;
typedef struct _uj_ctx {
const unsigned char* pos;
int valid, decoded;
int no_decode;
int fast_chroma;
int size;
int length;
int width, height;
int mbwidth, mbheight;
int mbsizex, mbsizey;
int ncomp;
ujComponent comp[3];
int qtused, qtavail;
unsigned char qtab[4][64];
ujVLCCode vlctab[8][65536];
int buf, bufbits;
int block[64];
int rstinterval;
unsigned char* rgb;
int exif_le;
int co_sited_chroma;
bool mapx; // 大话2旧地图特殊处理
} ujContext;
static ujResult ujError = UJ_OK;
static const char ujZZ[64] = { 0, 1, 8, 16, 9, 2, 3, 10, 17, 24, 32, 25, 18,
11, 4, 5, 12, 19, 26, 33, 40, 48, 41, 34, 27, 20, 13, 6, 7, 14, 21, 28, 35,
42, 49, 56, 57, 50, 43, 36, 29, 22, 15, 23, 30, 37, 44, 51, 58, 59, 52, 45,
38, 31, 39, 46, 53, 60, 61, 54, 47, 55, 62, 63 };
UJ_FORCE_INLINE unsigned char ujClip(const int x) {
return (x < 0) ? 0 : ((x > 0xFF) ? 0xFF : (unsigned char)x);
}
///////////////////////////////////////////////////////////////////////////////
#define W1 2841
#define W2 2676
#define W3 2408
#define W5 1609
#define W6 1108
#define W7 565
UJ_INLINE void ujRowIDCT(int* blk) {
int x0, x1, x2, x3, x4, x5, x6, x7, x8;
if (!((x1 = blk[4] << 11)
| (x2 = blk[6])
| (x3 = blk[2])
| (x4 = blk[1])
| (x5 = blk[7])
| (x6 = blk[5])
| (x7 = blk[3])))
{
blk[0] = blk[1] = blk[2] = blk[3] = blk[4] = blk[5] = blk[6] = blk[7] = blk[0] << 3;
return;
}
x0 = (blk[0] << 11) + 128;
x8 = W7 * (x4 + x5);
x4 = x8 + (W1 - W7) * x4;
x5 = x8 - (W1 + W7) * x5;
x8 = W3 * (x6 + x7);
x6 = x8 - (W3 - W5) * x6;
x7 = x8 - (W3 + W5) * x7;
x8 = x0 + x1;
x0 -= x1;
x1 = W6 * (x3 + x2);
x2 = x1 - (W2 + W6) * x2;
x3 = x1 + (W2 - W6) * x3;
x1 = x4 + x6;
x4 -= x6;
x6 = x5 + x7;
x5 -= x7;
x7 = x8 + x3;
x8 -= x3;
x3 = x0 + x2;
x0 -= x2;
x2 = (181 * (x4 + x5) + 128) >> 8;
x4 = (181 * (x4 - x5) + 128) >> 8;
blk[0] = (x7 + x1) >> 8;
blk[1] = (x3 + x2) >> 8;
blk[2] = (x0 + x4) >> 8;
blk[3] = (x8 + x6) >> 8;
blk[4] = (x8 - x6) >> 8;
blk[5] = (x0 - x4) >> 8;
blk[6] = (x3 - x2) >> 8;
blk[7] = (x7 - x1) >> 8;
}
UJ_INLINE void ujColIDCT(const int* blk, unsigned char* out, int stride) {
int x0, x1, x2, x3, x4, x5, x6, x7, x8;
if (!((x1 = blk[8 * 4] << 8)
| (x2 = blk[8 * 6])
| (x3 = blk[8 * 2])
| (x4 = blk[8 * 1])
| (x5 = blk[8 * 7])
| (x6 = blk[8 * 5])
| (x7 = blk[8 * 3])))
{
x1 = ujClip(((blk[0] + 32) >> 6) + 128);
for (x0 = 8; x0; --x0) {
*out = (unsigned char)x1;
out += stride;
}
return;
}
x0 = (blk[0] << 8) + 8192;
x8 = W7 * (x4 + x5) + 4;
x4 = (x8 + (W1 - W7) * x4) >> 3;
x5 = (x8 - (W1 + W7) * x5) >> 3;
x8 = W3 * (x6 + x7) + 4;
x6 = (x8 - (W3 - W5) * x6) >> 3;
x7 = (x8 - (W3 + W5) * x7) >> 3;
x8 = x0 + x1;
x0 -= x1;
x1 = W6 * (x3 + x2) + 4;
x2 = (x1 - (W2 + W6) * x2) >> 3;
x3 = (x1 + (W2 - W6) * x3) >> 3;
x1 = x4 + x6;
x4 -= x6;
x6 = x5 + x7;
x5 -= x7;
x7 = x8 + x3;
x8 -= x3;
x3 = x0 + x2;
x0 -= x2;
x2 = (181 * (x4 + x5) + 128) >> 8;
x4 = (181 * (x4 - x5) + 128) >> 8;
*out = ujClip(((x7 + x1) >> 14) + 128); out += stride;
*out = ujClip(((x3 + x2) >> 14) + 128); out += stride;
*out = ujClip(((x0 + x4) >> 14) + 128); out += stride;
*out = ujClip(((x8 + x6) >> 14) + 128); out += stride;
*out = ujClip(((x8 - x6) >> 14) + 128); out += stride;
*out = ujClip(((x0 - x4) >> 14) + 128); out += stride;
*out = ujClip(((x3 - x2) >> 14) + 128); out += stride;
*out = ujClip(((x7 - x1) >> 14) + 128);
}
///////////////////////////////////////////////////////////////////////////////
#define ujThrow(e) do { ujError = e; return; } while (0)
#define ujCheckError() do { if (ujError) return; } while (0)
static int ujShowBits(ujContext* uj, int bits) {
unsigned char newbyte;
if (!bits) return 0;
while (uj->bufbits < bits) {
if (uj->size <= 0) {
uj->buf = (uj->buf << 8) | 0xFF;
uj->bufbits += 8;
continue;
}
newbyte = *uj->pos++;
uj->size--;
uj->bufbits += 8;
uj->buf = (uj->buf << 8) | newbyte;
if (!uj->mapx && newbyte == 0xFF) { // 大话2旧地图特殊处理 旧地图没有FF00
if (uj->size) {
unsigned char marker = *uj->pos++;
uj->size--;
switch (marker) {
case 0x00:
// case 0xFF:
break;
// case 0xD9:
// uj->size = 0; break;
default:
// if ((marker & 0xF8) != 0xD0) {
// ujError = UJ_SYNTAX_ERROR;
// } else {
// uj->buf = (uj->buf << 8) | marker;
// uj->bufbits += 8;
// }
uj->buf = (uj->buf << 8) | marker;
uj->bufbits += 8;
}
}
else
ujError = UJ_SYNTAX_ERROR;
}
}
return (uj->buf >> (uj->bufbits - bits)) & ((1 << bits) - 1);
}
UJ_INLINE void ujSkipBits(ujContext* uj, int bits) {
if (uj->bufbits < bits)
(void)ujShowBits(uj, bits);
uj->bufbits -= bits;
}
UJ_INLINE int ujGetBits(ujContext* uj, int bits) {
int res = ujShowBits(uj, bits);
ujSkipBits(uj, bits);
return res;
}
UJ_INLINE void ujByteAlign(ujContext* uj) {
uj->bufbits &= 0xF8;
}
static void ujSkip(ujContext* uj, int count) {
uj->pos += count;
uj->size -= count;
uj->length -= count;
if (uj->size < 0) ujError = UJ_SYNTAX_ERROR;
}
UJ_INLINE unsigned short ujDecode16(const unsigned char* pos) {
return (pos[0] << 8) | pos[1];
}
UJ_INLINE unsigned short ujDecode16Reverse(const unsigned char* pos) {
return (pos[1] << 8) | pos[0];
}
static void ujDecodeLength(ujContext* uj) {
if (uj->size < 2) ujThrow(UJ_SYNTAX_ERROR);
uj->length = ujDecode16(uj->pos);
if (uj->length > uj->size) ujThrow(UJ_SYNTAX_ERROR);
ujSkip(uj, 2);
}
UJ_INLINE void ujSkipMarker(ujContext* uj) {
ujDecodeLength(uj);
ujSkip(uj, uj->length);
}
UJ_INLINE void ujDecodeSOF(ujContext* uj) {
int i, ssxmax = 0, ssymax = 0, size;
ujComponent* c;
ujDecodeLength(uj);
ujCheckError();
if (uj->length < 9) ujThrow(UJ_SYNTAX_ERROR);
if (uj->pos[0] != 8) ujThrow(UJ_UNSUPPORTED);
uj->height = ujDecode16(uj->pos + 1);
uj->width = ujDecode16(uj->pos + 3);
// 大话2旧地图特殊处理
if (uj->mapx) {
uj->height = 240;
uj->width = 320;
}
if (!uj->width || !uj->height) ujThrow(UJ_SYNTAX_ERROR);
uj->ncomp = uj->pos[5];
ujSkip(uj, 6);
switch (uj->ncomp) {
case 1:
case 3:
break;
default:
ujThrow(UJ_UNSUPPORTED);
}
if (uj->length < (uj->ncomp * 3)) ujThrow(UJ_SYNTAX_ERROR);
for (i = 0, c = uj->comp; i < uj->ncomp; ++i, ++c) {
c->cid = uj->pos[0];
if (!(c->ssx = uj->pos[1] >> 4)) ujThrow(UJ_SYNTAX_ERROR);
if (c->ssx & (c->ssx - 1)) ujThrow(UJ_UNSUPPORTED); // non-power of two
if (!(c->ssy = uj->pos[1] & 15)) ujThrow(UJ_SYNTAX_ERROR);
if (c->ssy & (c->ssy - 1)) ujThrow(UJ_UNSUPPORTED); // non-power of two
if ((c->qtsel = uj->pos[2]) & 0xFC) ujThrow(UJ_SYNTAX_ERROR);
ujSkip(uj, 3);
uj->qtused |= 1 << c->qtsel;
if (c->ssx > ssxmax) ssxmax = c->ssx;
if (c->ssy > ssymax) ssymax = c->ssy;
}
if (uj->ncomp == 1) {
c = uj->comp;
c->ssx = c->ssy = ssxmax = ssymax = 1;
}
uj->mbsizex = ssxmax << 3;
uj->mbsizey = ssymax << 3;
uj->mbwidth = (uj->width + uj->mbsizex - 1) / uj->mbsizex;
uj->mbheight = (uj->height + uj->mbsizey - 1) / uj->mbsizey;
for (i = 0, c = uj->comp; i < uj->ncomp; ++i, ++c) {
c->width = (uj->width * c->ssx + ssxmax - 1) / ssxmax;
c->height = (uj->height * c->ssy + ssymax - 1) / ssymax;
c->stride = uj->mbwidth * c->ssx << 3;
if (((c->width < 3) && (c->ssx != ssxmax)) || ((c->height < 3) && (c->ssy != ssymax))) ujThrow(UJ_UNSUPPORTED);
if (!uj->no_decode) {
size = c->stride * uj->mbheight * c->ssy << 3;
if (!(c->pixels = (unsigned char*)malloc(size))) ujThrow(UJ_OUT_OF_MEM);
memset(c->pixels, 0x80, size);
}
}
ujSkip(uj, uj->length);
}
UJ_INLINE void ujDecodeDHT(ujContext* uj) {
int codelen, currcnt, remain, spread, i, j;
ujVLCCode* vlc;
static unsigned char counts[16];
ujDecodeLength(uj);
ujCheckError();
while (uj->length >= 17) {
i = uj->pos[0];
if (i & 0xEC) ujThrow(UJ_SYNTAX_ERROR);
// 大话2新地图特殊处理
//
// 取值现在为0~7
// if (i & 0x02) ujThrow(UJ_UNSUPPORTED);
i = (i | (i >> 2)) & 7; // combined DC/AC + tableid value
// 0~3 为DC 4~7为AC
for (codelen = 1; codelen <= 16; ++codelen)
counts[codelen - 1] = uj->pos[codelen];
ujSkip(uj, 17);
vlc = &uj->vlctab[i][0];
remain = spread = 65536;
for (codelen = 1; codelen <= 16; ++codelen) {
spread >>= 1;
currcnt = counts[codelen - 1];
if (!currcnt) continue;
if (uj->length < currcnt) ujThrow(UJ_SYNTAX_ERROR);
remain -= currcnt << (16 - codelen);
if (remain < 0) ujThrow(UJ_SYNTAX_ERROR);
for (i = 0; i < currcnt; ++i) {
register unsigned char code = uj->pos[i];
for (j = spread; j; --j) {
vlc->bits = (unsigned char)codelen;
vlc->code = code;
++vlc;
}
}
ujSkip(uj, currcnt);
}
while (remain--) {
vlc->bits = 0;
++vlc;
}
}
if (uj->length) ujThrow(UJ_SYNTAX_ERROR);
}
UJ_INLINE void ujDecodeDQT(ujContext* uj) {
int i;
unsigned char* t;
ujDecodeLength(uj);
ujCheckError();
while (uj->length >= 65) {
i = uj->pos[0];
if (i & 0xFC) ujThrow(UJ_SYNTAX_ERROR);
uj->qtavail |= 1 << i;
t = &uj->qtab[i][0];
for (i = 0; i < 64; ++i)
t[i] = uj->pos[i + 1];
ujSkip(uj, 65);
}
if (uj->length) ujThrow(UJ_SYNTAX_ERROR);
}
UJ_INLINE void ujDecodeDRI(ujContext* uj) {
ujDecodeLength(uj);
ujCheckError();
if (uj->length < 2) ujThrow(UJ_SYNTAX_ERROR);
uj->rstinterval = ujDecode16(uj->pos);
ujSkip(uj, uj->length);
}
static int ujGetVLC(ujContext* uj, ujVLCCode* vlc, unsigned char* code) {
int value = ujShowBits(uj, 16);
int bits = vlc[value].bits;
if (!bits) {
ujError = UJ_SYNTAX_ERROR;
return 0;
}
ujSkipBits(uj, bits);
value = vlc[value].code;
if (code) *code = (unsigned char)value;
bits = value & 15;
if (!bits) return 0;
value = ujGetBits(uj, bits);
if (value < (1 << (bits - 1)))
value += ((-1) << bits) + 1;
return value;
}
UJ_INLINE void ujDecodeBlock(ujContext* uj, ujComponent* c, unsigned char* out) {
unsigned char code = 0;
int value, coef = 0;
memset(uj->block, 0, sizeof(uj->block));
c->dcpred += ujGetVLC(uj, &uj->vlctab[c->dctabsel][0], NULL);
uj->block[0] = (c->dcpred) * uj->qtab[c->qtsel][0];
do {
value = ujGetVLC(uj, &uj->vlctab[c->actabsel][0], &code);
if (!code) break; // 0x00 接下来所有交流系数全部为0
if (!(code & 0x0F) && (code != 0xF0))
ujThrow(UJ_SYNTAX_ERROR);
coef += (code >> 4) + 1;
if (coef > 63)
ujThrow(UJ_SYNTAX_ERROR);
uj->block[(int)ujZZ[coef]] = value * uj->qtab[c->qtsel][coef];
} while (coef < 63);
for (coef = 0; coef < 64; coef += 8)
ujRowIDCT(&uj->block[coef]);
for (coef = 0; coef < 8; ++coef)
ujColIDCT(&uj->block[coef], &out[coef], c->stride);
}
UJ_INLINE void ujDecodeScan(ujContext* uj) {
int i, mbx, mby, sbx, sby;
int rstcount = uj->rstinterval, nextrst = 0;
ujComponent* c;
ujDecodeLength(uj);
ujCheckError();
if (uj->length < (4 + 2 * uj->ncomp)) ujThrow(UJ_SYNTAX_ERROR);
if (uj->pos[0] != uj->ncomp) ujThrow(UJ_UNSUPPORTED);
ujSkip(uj, 1);
for (i = 0, c = uj->comp; i < uj->ncomp; ++i, ++c) {
if (uj->pos[0] != c->cid) ujThrow(UJ_SYNTAX_ERROR);
// 大话2新地图特殊处理
// if (uj->pos[1] & 0xEE) ujThrow(UJ_SYNTAX_ERROR);
c->dctabsel = uj->pos[1] >> 4;
// AC为4~7
// c->actabsel = (uj->pos[1] & 1) | 2;
c->actabsel = (uj->pos[1] & 3) | 4;
ujSkip(uj, 2);
}
// 0x003F00
if (uj->pos[0] || (uj->pos[1] != 63) || uj->pos[2]) ujThrow(UJ_UNSUPPORTED);
ujSkip(uj, uj->length);
// 大话2旧地图特殊处理
if (uj->mapx) {
// uj->width = uj->pos[0] + uj->pos[1] << 8;
// uj->height = uj->pos[2] + uj->pos[3] << 8;
uj->pos += 4;
uj->size -= 4;
uj->comp[0].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
uj->comp[1].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
uj->comp[2].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
int bit_pos = *uj->pos++;
uj->size -= 7;
ujSkipBits(uj, bit_pos);
}
uj->valid = 1;
if (uj->no_decode) { ujError = __UJ_FINISHED; return; }
uj->decoded = 1; // mark the image as decoded now -- every subsequent error
// just means that the image hasn't been decoded
// completely
for (mbx = mby = 0;;) {
for (i = 0, c = uj->comp; i < uj->ncomp; ++i, ++c)
for (sby = 0; sby < c->ssy; ++sby)
for (sbx = 0; sbx < c->ssx; ++sbx) {
ujDecodeBlock(uj, c, &c->pixels[((mby * c->ssy + sby) * c->stride + mbx * c->ssx + sbx) << 3]);
ujCheckError();
}
if (++mbx >= uj->mbwidth) {
mbx = 0;
// 大话2旧地图特殊处理
if (uj->mapx) {
int back = uj->bufbits / 8;
while (back) {
uj->pos--;
uj->size++;
back--;
}
uj->buf = 0;
uj->bufbits = 0;
uj->comp[0].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
uj->comp[1].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
uj->comp[2].dcpred = (short)ujDecode16Reverse(uj->pos);
uj->pos += 2;
int bit_pos = *uj->pos++;
uj->size -= 7;
ujSkipBits(uj, bit_pos);
}
if (++mby >= uj->mbheight) break;
}
if (uj->rstinterval && !(--rstcount)) {
ujByteAlign(uj);
i = ujGetBits(uj, 16);
if (((i & 0xFFF8) != 0xFFD0) || ((i & 7) != nextrst))
ujThrow(UJ_SYNTAX_ERROR);
nextrst = (nextrst + 1) & 7;
rstcount = uj->rstinterval;
for (i = 0; i < 3; ++i)
uj->comp[i].dcpred = 0;
}
}
ujError = __UJ_FINISHED;
}
///////////////////////////////////////////////////////////////////////////////
#define CF4A (-9)
#define CF4B (111)
#define CF4C (29)
#define CF4D (-3)
#define CF3A (28)
#define CF3B (109)
#define CF3C (-9)
#define CF3X (104)
#define CF3Y (27)
#define CF3Z (-3)
#define CF2A (139)
#define CF2B (-11)
#define CF(x) ujClip(((x) + 64) >> 7)
UJ_INLINE void ujUpsampleHCentered(ujComponent* c) {
const int xmax = c->width - 3;
unsigned char* out, * lin, * lout;
int x, y;
out = (unsigned char*)malloc((c->width * c->height) << 1);
if (!out) ujThrow(UJ_OUT_OF_MEM);
lin = c->pixels;
lout = out;
for (y = c->height; y; --y) {
lout[0] = CF(CF2A * lin[0] + CF2B * lin[1]);
lout[1] = CF(CF3X * lin[0] + CF3Y * lin[1] + CF3Z * lin[2]);
lout[2] = CF(CF3A * lin[0] + CF3B * lin[1] + CF3C * lin[2]);
for (x = 0; x < xmax; ++x) {
lout[(x << 1) + 3] = CF(CF4A * lin[x] + CF4B * lin[x + 1] + CF4C * lin[x + 2] + CF4D * lin[x + 3]);
lout[(x << 1) + 4] = CF(CF4D * lin[x] + CF4C * lin[x + 1] + CF4B * lin[x + 2] + CF4A * lin[x + 3]);
}
lin += c->stride;
lout += c->width << 1;
lout[-3] = CF(CF3A * lin[-1] + CF3B * lin[-2] + CF3C * lin[-3]);
lout[-2] = CF(CF3X * lin[-1] + CF3Y * lin[-2] + CF3Z * lin[-3]);
lout[-1] = CF(CF2A * lin[-1] + CF2B * lin[-2]);
}
c->width <<= 1;
c->stride = c->width;
free((void*)c->pixels);
c->pixels = out;
}
UJ_INLINE void ujUpsampleVCentered(ujComponent* c) {
const int w = c->width, s1 = c->stride, s2 = s1 + s1;
unsigned char* out, * cin, * cout;
int x, y;
out = (unsigned char*)malloc((c->width * c->height) << 1);
if (!out) ujThrow(UJ_OUT_OF_MEM);
for (x = 0; x < w; ++x) {
cin = &c->pixels[x];
cout = &out[x];
*cout = CF(CF2A * cin[0] + CF2B * cin[s1]); cout += w;
*cout = CF(CF3X * cin[0] + CF3Y * cin[s1] + CF3Z * cin[s2]); cout += w;
*cout = CF(CF3A * cin[0] + CF3B * cin[s1] + CF3C * cin[s2]); cout += w;
cin += s1;
for (y = c->height - 3; y; --y) {
*cout = CF(CF4A * cin[-s1] + CF4B * cin[0] + CF4C * cin[s1] + CF4D * cin[s2]); cout += w;
*cout = CF(CF4D * cin[-s1] + CF4C * cin[0] + CF4B * cin[s1] + CF4A * cin[s2]); cout += w;
cin += s1;
}
cin += s1;
*cout = CF(CF3A * cin[0] + CF3B * cin[-s1] + CF3C * cin[-s2]); cout += w;
*cout = CF(CF3X * cin[0] + CF3Y * cin[-s1] + CF3Z * cin[-s2]); cout += w;
*cout = CF(CF2A * cin[0] + CF2B * cin[-s1]);
}
c->height <<= 1;
c->stride = c->width;
free((void*)c->pixels);
c->pixels = out;
}
#define SF(x) ujClip(((x) + 8) >> 4)
UJ_INLINE void ujUpsampleHCoSited(ujComponent* c) {
const int xmax = c->width - 1;
unsigned char* out, * lin, * lout;
int x, y;
out = (unsigned char*)malloc((c->width * c->height) << 1);
if (!out) ujThrow(UJ_OUT_OF_MEM);
lin = c->pixels;
lout = out;
for (y = c->height; y; --y) {
lout[0] = lin[0];
lout[1] = SF((lin[0] << 3) + 9 * lin[1] - lin[2]);
lout[2] = lin[1];
for (x = 2; x < xmax; ++x) {
lout[(x << 1) - 1] = SF(9 * (lin[x - 1] + lin[x]) - (lin[x - 2] + lin[x + 1]));
lout[x << 1] = lin[x];
}
lin += c->stride;
lout += c->width << 1;
lout[-3] = SF((lin[-1] << 3) + 9 * lin[-2] - lin[-3]);
lout[-2] = lin[-1];
lout[-1] = SF(17 * lin[-1] - lin[-2]);
}
c->width <<= 1;
c->stride = c->width;
free((void*)c->pixels);
c->pixels = out;
}
UJ_INLINE void ujUpsampleVCoSited(ujComponent* c) {
const int w = c->width, s1 = c->stride, s2 = s1 + s1;
unsigned char* out, * cin, * cout;
int x, y;
out = (unsigned char*)malloc((c->width * c->height) << 1);
if (!out) ujThrow(UJ_OUT_OF_MEM);
for (x = 0; x < w; ++x) {
cin = &c->pixels[x];
cout = &out[x];
*cout = cin[0]; cout += w;
*cout = SF((cin[0] << 3) + 9 * cin[s1] - cin[s2]); cout += w;
*cout = cin[s1]; cout += w;
cin += s1;
for (y = c->height - 3; y; --y) {
*cout = SF(9 * (cin[0] + cin[s1]) - (cin[-s1] + cin[s2])); cout += w;
*cout = cin[s1]; cout += w;
cin += s1;
}
*cout = SF((cin[s1] << 3) + 9 * cin[0] - cin[-s1]); cout += w;
*cout = cin[-s1]; cout += w;
*cout = SF(17 * cin[s1] - cin[0]);
}
c->height <<= 1;
c->stride = c->width;
free((void*)c->pixels);
c->pixels = out;
}
UJ_INLINE void ujUpsampleFast(ujContext* uj, ujComponent* c) {
int x, y, xshift = 0, yshift = 0;
unsigned char* out, * lin, * lout;
while (c->width < uj->width) { c->width <<= 1; ++xshift; }
while (c->height < uj->height) { c->height <<= 1; ++yshift; }
if (!xshift && !yshift) return;
out = (unsigned char*)malloc(c->width * c->height);
if (!out) ujThrow(UJ_OUT_OF_MEM);
lin = c->pixels;
lout = out;
for (y = 0; y < c->height; ++y) {
lin = &c->pixels[(y >> yshift) * c->stride];
for (x = 0; x < c->width; ++x)
lout[x] = lin[x >> xshift];
lout += c->width;
}
c->stride = c->width;
free((void*)c->pixels);
c->pixels = out;
}
UJ_INLINE void ujConvert(ujContext* uj, unsigned char* pout) {
int i;
ujComponent* c;
for (i = 0, c = uj->comp; i < uj->ncomp; ++i, ++c) {
if (uj->fast_chroma) {
ujUpsampleFast(uj, c);
ujCheckError();
}
else {
while ((c->width < uj->width) || (c->height < uj->height)) {
if (c->width < uj->width) {
if (uj->co_sited_chroma) ujUpsampleHCoSited(c);
else ujUpsampleHCentered(c);
}
ujCheckError();
if (c->height < uj->height) {
if (uj->co_sited_chroma) ujUpsampleVCoSited(c);
else ujUpsampleVCentered(c);
}
ujCheckError();
}
}
if ((c->width < uj->width) || (c->height < uj->height)) ujThrow(UJ_INTERNAL_ERR);
}
if (uj->ncomp == 3) {
// convert to RGB
int x, yy;
const unsigned char* py = uj->comp[0].pixels;
const unsigned char* pcb = uj->comp[1].pixels;
const unsigned char* pcr = uj->comp[2].pixels;
for (yy = uj->height; yy; --yy) {
for (x = 0; x < uj->width; ++x) {
register int y = py[x] << 8;
register int cb = pcb[x] - 128;
register int cr = pcr[x] - 128;
*pout++ = ujClip((y + 359 * cr + 128) >> 8);
*pout++ = ujClip((y - 88 * cb - 183 * cr + 128) >> 8);
*pout++ = ujClip((y + 454 * cb + 128) >> 8);
}
py += uj->comp[0].stride;
pcb += uj->comp[1].stride;
pcr += uj->comp[2].stride;
}
}
else {
// grayscale -> only remove stride
unsigned char* pin = &uj->comp[0].pixels[uj->comp[0].stride];
int y;
for (y = uj->height - 1; y; --y) {
memcpy(pout, pin, uj->width);
pin += uj->comp[0].stride;
pout += uj->width;
}
}
}
void ujDone(ujContext* uj) {
int i;
for (i = 0; i < 3; ++i)
if (uj->comp[i].pixels)
free((void*)uj->comp[i].pixels);
if (uj->rgb)
free((void*)uj->rgb);
}
void ujInit(ujContext* uj) {
int save_no_decode = uj->no_decode;
int save_fast_chroma = uj->fast_chroma;
ujDone(uj);
memset(uj, 0, sizeof(ujContext));
uj->no_decode = save_no_decode;
uj->fast_chroma = save_fast_chroma;
}
///////////////////////////////////////////////////////////////////////////////
UJ_INLINE unsigned short ujGetExif16(ujContext* uj, const unsigned char* p) {
if (uj->exif_le)
return p[0] + (p[1] << 8);
else
return (p[0] << 8) + p[1];
}
UJ_INLINE int ujGetExif32(ujContext* uj, const unsigned char* p) {
if (uj->exif_le)
return p[0] + (p[1] << 8) + (p[2] << 16) + (p[3] << 24);
else
return (p[0] << 24) + (p[1] << 16) + (p[2] << 8) + p[3];
}
UJ_INLINE void ujDecodeExif(ujContext* uj) {
const unsigned char* ptr;
int size, count, i;
if (uj->no_decode || uj->fast_chroma) {
ujSkipMarker(uj);
return;
}
ujDecodeLength(uj);
ujCheckError();
ptr = uj->pos;
size = uj->length;
ujSkip(uj, uj->length);
if (size < 18) return;
if (!memcmp(ptr, "Exif\0\0II*\0", 10))
uj->exif_le = 1;
else if (!memcmp(ptr, "Exif\0\0MM\0*", 10))
uj->exif_le = 0;
else
return; // invalid Exif header
i = ujGetExif32(uj, ptr + 10) + 6;
if ((i < 14) || (i > (size - 2))) return;
ptr += i;
size -= i;
count = ujGetExif16(uj, ptr);
i = (size - 2) / 12;
if (count > i) return;
ptr += 2;
while (count--) {
if ((ujGetExif16(uj, ptr) == 0x0213) // tag = YCbCrPositioning
&& (ujGetExif16(uj, ptr + 2) == 3) // type = SHORT
&& (ujGetExif32(uj, ptr + 4) == 1) // length = 1
) {
uj->co_sited_chroma = (ujGetExif16(uj, ptr + 8) == 2);
return;
}
ptr += 12;
}
}
///////////////////////////////////////////////////////////////////////////////
ujImage ujCreate(void) {
ujContext* uj = (ujContext*)calloc(1, sizeof(ujContext));
ujError = uj ? UJ_OK : UJ_OUT_OF_MEM;
return (ujImage)uj;
}
void ujDisableDecoding(ujImage img) {
ujContext* uj = (ujContext*)img;
if (uj) {
uj->no_decode = 1;
ujError = UJ_OK;
}
else
ujError = UJ_NO_CONTEXT;
}
void ujSetChromaMode(ujImage img, int mode) {
ujContext* uj = (ujContext*)img;
if (uj) {
uj->fast_chroma = mode;
ujError = UJ_OK;
}
else
ujError = UJ_NO_CONTEXT;
}
ujImage ujDecode(ujImage img, const void* jpeg, const int size, bool mapx) {
ujContext* uj = (ujContext*)(img ? img : ujCreate());
if (img) ujInit(uj);
ujError = UJ_OK;
if (!uj)
{
ujError = UJ_OUT_OF_MEM; goto out;
}
uj->mapx = mapx;
uj->pos = (const unsigned char*)jpeg;
uj->size = size & 0x7FFFFFFF;
if (uj->size < 2)
{
ujError = UJ_NO_JPEG; goto out;
}
if ((uj->pos[0] ^ 0xFF) | (uj->pos[1] ^ 0xD8))
{
ujError = UJ_NO_JPEG; goto out;
}
ujSkip(uj, 2);
while (!ujError) {
if ((uj->size < 2) || (uj->pos[0] != 0xFF))
{
ujError = UJ_SYNTAX_ERROR; goto out;
}
ujSkip(uj, 2);
switch (uj->pos[-1]) {
case 0xC0: ujDecodeSOF(uj); break;
case 0xC4: ujDecodeDHT(uj); break;
case 0xDB: ujDecodeDQT(uj); break;
case 0xDD: ujDecodeDRI(uj); break;
case 0xDA: ujDecodeScan(uj); break;
case 0xFE: ujSkipMarker(uj); break;
case 0xE1: ujDecodeExif(uj); break;
default:
if ((uj->pos[-1] & 0xF0) == 0xE0)
ujSkipMarker(uj);
else
{
ujError = UJ_UNSUPPORTED; goto out;
}
}
}
if (ujError == __UJ_FINISHED) ujError = UJ_OK;
out:
if (ujError && !uj->valid) {
if (!img)
ujFree(uj);
return NULL;
}
return (ujImage)uj;
}
ujImage ujDecodeFile(ujImage img, const char* filename) {
FILE* f; size_t size;
void* buf;
ujError = UJ_OK;
f = fopen(filename, "rb");
if (!f) {
ujError = UJ_IO_ERROR;
return NULL;
}
fseek(f, 0, SEEK_END);
size = ftell(f);
fseek(f, 0, SEEK_SET);
#ifdef UJ_NODECODE_BLOCK_SIZE
if (img && ((ujContext*)img)->no_decode && (size > UJ_NODECODE_BLOCK_SIZE))
size = UJ_NODECODE_BLOCK_SIZE;
#endif
buf = malloc(size);
if (!buf) {
fclose(f);
ujError = UJ_OUT_OF_MEM;
return NULL;
}
size = fread(buf, 1, size, f);
fclose(f);
img = ujDecode(img, buf, (int)size, false);
free(buf);
return img;
}
ujResult ujGetError(void) {
return ujError;
}
int ujIsValid(ujImage img) {
ujContext* uj = (ujContext*)img;
if (!uj) { ujError = UJ_NO_CONTEXT; return 0; }
return uj->valid;
}
int ujGetWidth(ujImage img) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->valid ? UJ_OK : UJ_NOT_DECODED);
return ujError ? 0 : uj->width;
}
int ujGetHeight(ujImage img) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->valid ? UJ_OK : UJ_NOT_DECODED);
return ujError ? 0 : uj->height;
}
int ujIsColor(ujImage img) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->valid ? UJ_OK : UJ_NOT_DECODED);
return ujError ? 0 : (uj->ncomp != 1);
}
int ujGetImageSize(ujImage img) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->valid ? UJ_OK : UJ_NOT_DECODED);
return ujError ? 0 : (uj->width * uj->height * uj->ncomp);
}
ujPlane* ujGetPlane(ujImage img, int num) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->decoded ? UJ_OK : UJ_NOT_DECODED);
if (!ujError && (num >= uj->ncomp)) ujError = UJ_INVALID_ARG;
return ujError ? NULL : ((ujPlane*)&uj->comp[num]);
}
unsigned char* ujGetImage(ujImage img, unsigned char* dest) {
ujContext* uj = (ujContext*)img;
ujError = !uj ? UJ_NO_CONTEXT : (uj->decoded ? UJ_OK : UJ_NOT_DECODED);
if (ujError) return NULL;
if (dest) {
if (uj->rgb)
memcpy(dest, uj->rgb, uj->width * uj->height * uj->ncomp);
else {
ujConvert(uj, dest);
if (ujError) return NULL;
}
return dest;
}
else {
if (!uj->rgb) {
uj->rgb = (unsigned char*)malloc(uj->width * uj->height * uj->ncomp);
if (!uj->rgb) { ujError = UJ_OUT_OF_MEM; return NULL; }
ujConvert(uj, uj->rgb);
if (ujError) return NULL;
}
return uj->rgb;
}
}
void ujDestroy(ujImage img) {
ujError = UJ_OK;
if (!img) { ujError = UJ_NO_CONTEXT; return; }
ujDone((ujContext*)img);
free(img);
}
#ifdef __cplusplus
}
#endif
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