1/*
2 * Copyright 2015 Google Inc.
3 *
4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file.
6 */
7
8#ifndef SkOpts_DEFINED
9#define SkOpts_DEFINED
10
11#include "include/core/SkTypes.h"
12#include "include/private/SkOpts_spi.h"
13#include "src/core/SkRasterPipeline.h"
14#include "src/core/SkXfermodePriv.h"
15
16struct SkBitmapProcState;
17namespace skvm { struct InterpreterInstruction; }
18
19namespace SkOpts {
20 // Call to replace pointers to portable functions with pointers to CPU-specific functions.
21 // Thread-safe and idempotent.
22 // Called by SkGraphics::Init().
23 void Init();
24
25 // Declare function pointers here...
26
27 // May return nullptr if we haven't specialized the given Mode.
28 extern SkXfermode* (*create_xfermode)(SkBlendMode);
29
30 extern void (*blit_mask_d32_a8)(SkPMColor*, size_t, const SkAlpha*, size_t, SkColor, int, int);
31 extern void (*blit_row_color32)(SkPMColor*, const SkPMColor*, int, SkPMColor);
32 extern void (*blit_row_s32a_opaque)(SkPMColor*, const SkPMColor*, int, U8CPU);
33
34 // Swizzle input into some sort of 8888 pixel, {premul,unpremul} x {rgba,bgra}.
35 typedef void (*Swizzle_8888_u32)(uint32_t*, const uint32_t*, int);
36 extern Swizzle_8888_u32 RGBA_to_BGRA, // i.e. just swap RB
37 RGBA_to_rgbA, // i.e. just premultiply
38 RGBA_to_bgrA, // i.e. swap RB and premultiply
39 inverted_CMYK_to_RGB1, // i.e. convert color space
40 inverted_CMYK_to_BGR1; // i.e. convert color space
41
42 typedef void (*Swizzle_8888_u8)(uint32_t*, const uint8_t*, int);
43 extern Swizzle_8888_u8 RGB_to_RGB1, // i.e. insert an opaque alpha
44 RGB_to_BGR1, // i.e. swap RB and insert an opaque alpha
45 gray_to_RGB1, // i.e. expand to color channels + an opaque alpha
46 grayA_to_RGBA, // i.e. expand to color channels
47 grayA_to_rgbA; // i.e. expand to color channels and premultiply
48
49 extern void (*memset16)(uint16_t[], uint16_t, int);
50 extern void SK_SPI(*memset32)(uint32_t[], uint32_t, int);
51 extern void (*memset64)(uint64_t[], uint64_t, int);
52
53 extern void (*rect_memset16)(uint16_t[], uint16_t, int, size_t, int);
54 extern void (*rect_memset32)(uint32_t[], uint32_t, int, size_t, int);
55 extern void (*rect_memset64)(uint64_t[], uint64_t, int, size_t, int);
56
57 extern float (*cubic_solver)(float, float, float, float);
58
59 static inline uint32_t hash(const void* data, size_t bytes, uint32_t seed=0) {
60 return hash_fn(data, bytes, seed);
61 }
62
63 // SkBitmapProcState optimized Shader, Sample, or Matrix procs.
64 extern void (*S32_alpha_D32_filter_DX)(const SkBitmapProcState&,
65 const uint32_t* xy, int count, SkPMColor*);
66 extern void (*S32_alpha_D32_filter_DXDY)(const SkBitmapProcState&,
67 const uint32_t* xy, int count, SkPMColor*);
68
69#define M(st) +1
70 // We can't necessarily express the type of SkJumper stage functions here,
71 // so we just use this void(*)(void) as a stand-in.
72 using StageFn = void(*)(void);
73 extern StageFn stages_highp[SK_RASTER_PIPELINE_STAGES(M)], just_return_highp;
74 extern StageFn stages_lowp [SK_RASTER_PIPELINE_STAGES(M)], just_return_lowp;
75
76 extern void (*start_pipeline_highp)(size_t,size_t,size_t,size_t, void**);
77 extern void (*start_pipeline_lowp )(size_t,size_t,size_t,size_t, void**);
78#undef M
79
80 extern void (*interpret_skvm)(const skvm::InterpreterInstruction insts[], int ninsts,
81 int nregs, int loop, const int strides[], int nargs,
82 int n, void* args[]);
83} // namespace SkOpts
84
85#endif//SkOpts_DEFINED
86