1 /***************************************************************************
2 * Copyright (C) 2010 PCSX4ALL Team *
3 * Copyright (C) 2010 Unai *
4 * Copyright (C) 2016 Senquack (dansilsby <AT> gmail <DOT> com) *
6 * This program is free software; you can redistribute it and/or modify *
7 * it under the terms of the GNU General Public License as published by *
8 * the Free Software Foundation; either version 2 of the License, or *
9 * (at your option) any later version. *
11 * This program is distributed in the hope that it will be useful, *
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
14 * GNU General Public License for more details. *
16 * You should have received a copy of the GNU General Public License *
17 * along with this program; if not, write to the *
18 * Free Software Foundation, Inc., *
19 * 51 Franklin Street, Fifth Floor, Boston, MA 02111-1307 USA. *
20 ***************************************************************************/
22 ///////////////////////////////////////////////////////////////////////////////
23 // Inner loop driver instantiation file
25 ///////////////////////////////////////////////////////////////////////////////
26 // Option Masks (CF template paramter)
27 #define CF_LIGHT ((CF>> 0)&1) // Lighting
28 #define CF_BLEND ((CF>> 1)&1) // Blending
29 #define CF_MASKCHECK ((CF>> 2)&1) // Mask bit check
30 #define CF_BLENDMODE ((CF>> 3)&3) // Blend mode 0..3
31 #define CF_TEXTMODE ((CF>> 5)&3) // Texture mode 1..3 (0: texturing disabled)
32 #define CF_GOURAUD ((CF>> 7)&1) // Gouraud shading
33 #define CF_MASKSET ((CF>> 8)&1) // Mask bit set
34 #define CF_DITHER ((CF>> 9)&1) // Dithering
35 #define CF_BLITMASK ((CF>>10)&1) // blit_mask check (skip rendering pixels
36 // that wouldn't end up displayed on
37 // low-res screen using simple downscaler)
40 //#ifndef ENABLE_GPU_ARMV7
42 //#include "gpu_inner_blend_arm5.h"
45 //#include "gpu_inner_blend_arm7.h"
48 //#include "gpu_inner_blend.h"
51 // TODO: use the arm-optimized gpu_inner_blends for arm builds
52 #include "gpu_inner_blend.h"
54 #include "gpu_inner_quantization.h"
55 #include "gpu_inner_light.h"
57 // If defined, Gouraud colors are fixed-point 5.11, otherwise they are 8.16
58 // This is only for debugging/verification of low-precision colors in C.
59 // Low-precision Gouraud is intended for use by SIMD-optimized inner drivers
60 // which get/use Gouraud colors in SIMD registers.
61 //#define GPU_GOURAUD_LOW_PRECISION
63 // How many bits of fixed-point precision GouraudColor uses
64 #ifdef GPU_GOURAUD_LOW_PRECISION
65 #define GPU_GOURAUD_FIXED_BITS 11
67 #define GPU_GOURAUD_FIXED_BITS 16
70 // Used to pass Gouraud colors to gpuPixelSpanFn() (lines)
72 #ifdef GPU_GOURAUD_LOW_PRECISION
74 s16 r_incr, g_incr, b_incr;
77 s32 r_incr, g_incr, b_incr;
81 static inline u16 gpuGouraudColor15bpp(u32 r, u32 g, u32 b)
83 r >>= GPU_GOURAUD_FIXED_BITS;
84 g >>= GPU_GOURAUD_FIXED_BITS;
85 b >>= GPU_GOURAUD_FIXED_BITS;
87 #ifndef GPU_GOURAUD_LOW_PRECISION
88 // High-precision Gouraud colors are 8-bit + fractional
89 r >>= 3; g >>= 3; b >>= 3;
92 return r | (g << 5) | (b << 10);
95 ///////////////////////////////////////////////////////////////////////////////
96 // GPU Pixel span operations generator gpuPixelSpanFn<>
97 // Oct 2016: Created/adapted from old gpuPixelFn by senquack:
98 // Original gpuPixelFn was used to draw lines one pixel at a time. I wrote
99 // new line algorithms that draw lines using horizontal/vertical/diagonal
100 // spans of pixels, necessitating new pixel-drawing function that could
101 // not only render spans of pixels, but gouraud-shade them as well.
102 // This speeds up line rendering and would allow tile-rendering (untextured
103 // rectangles) to use the same set of functions. Since tiles are always
104 // monochrome, they simply wouldn't use the extra set of 32 gouraud-shaded
105 // gpuPixelSpanFn functions (TODO?).
107 // NOTE: While the PS1 framebuffer is 16 bit, we use 8-bit pointers here,
108 // so that pDst can be incremented directly by 'incr' parameter
109 // without having to shift it before use.
111 static u8* gpuPixelSpanFn(u8* pDst, uintptr_t data, ptrdiff_t incr, size_t len)
113 // Blend func can save an operation if it knows uSrc MSB is
114 // unset. For untextured prims, this is always true.
115 const bool skip_uSrc_mask = true;
118 struct GouraudColor * gcPtr;
120 s32 r_incr, g_incr, b_incr;
123 gcPtr = (GouraudColor*)data;
124 r = gcPtr->r; r_incr = gcPtr->r_incr;
125 g = gcPtr->g; g_incr = gcPtr->g_incr;
126 b = gcPtr->b; b_incr = gcPtr->b_incr;
134 if (!CF_MASKCHECK && !CF_BLEND) {
135 if (CF_MASKSET) { *(u16*)pDst = col | 0x8000; }
136 else { *(u16*)pDst = col; }
137 } else if (CF_MASKCHECK && !CF_BLEND) {
138 if (!(*(u16*)pDst & 0x8000)) {
139 if (CF_MASKSET) { *(u16*)pDst = col | 0x8000; }
140 else { *(u16*)pDst = col; }
143 u16 uDst = *(u16*)pDst;
144 if (CF_MASKCHECK) { if (uDst & 0x8000) goto endpixel; }
149 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
151 if (CF_MASKSET) { *(u16*)pDst = uSrc | 0x8000; }
152 else { *(u16*)pDst = uSrc; }
158 if (!CF_MASKCHECK && !CF_BLEND) {
159 col = gpuGouraudColor15bpp(r, g, b);
160 if (CF_MASKSET) { *(u16*)pDst = col | 0x8000; }
161 else { *(u16*)pDst = col; }
162 } else if (CF_MASKCHECK && !CF_BLEND) {
163 col = gpuGouraudColor15bpp(r, g, b);
164 if (!(*(u16*)pDst & 0x8000)) {
165 if (CF_MASKSET) { *(u16*)pDst = col | 0x8000; }
166 else { *(u16*)pDst = col; }
169 u16 uDst = *(u16*)pDst;
170 if (CF_MASKCHECK) { if (uDst & 0x8000) goto endpixel; }
171 col = gpuGouraudColor15bpp(r, g, b);
175 // Blend func can save an operation if it knows uSrc MSB is
176 // unset. For untextured prims, this is always true.
177 const bool skip_uSrc_mask = true;
180 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
182 if (CF_MASKSET) { *(u16*)pDst = uSrc | 0x8000; }
183 else { *(u16*)pDst = uSrc; }
196 // Note from senquack: Normally, I'd prefer to write a 'do {} while (--len)'
197 // loop, or even a for() loop, however, on MIPS platforms anything but the
198 // 'do {} while (len-- > 1)' tends to generate very unoptimal asm, with
199 // many unneeded MULs/ADDs/branches at the ends of these functions.
200 // If you change the loop structure above, be sure to compare the quality
201 // of the generated code!!
211 static u8* PixelSpanNULL(u8* pDst, uintptr_t data, ptrdiff_t incr, size_t len)
213 #ifdef ENABLE_GPU_LOG_SUPPORT
214 fprintf(stdout,"PixelSpanNULL()\n");
219 ///////////////////////////////////////////////////////////////////////////////
220 // PixelSpan (lines) innerloops driver
221 typedef u8* (*PSD)(u8* dst, uintptr_t data, ptrdiff_t incr, size_t len);
223 const PSD gpuPixelSpanDrivers[64] =
225 // Array index | 'CF' template field | Field value
226 // ------------+---------------------+----------------
227 // Bit 0 | CF_BLEND | off (0), on (1)
228 // Bit 1 | CF_MASKCHECK | off (0), on (1)
229 // Bit 3:2 | CF_BLENDMODE | 0..3
230 // Bit 4 | CF_MASKSET | off (0), on (1)
231 // Bit 5 | CF_GOURAUD | off (0), on (1)
233 // NULL entries are ones for which blending is disabled and blend-mode
234 // field is non-zero, which is obviously invalid.
237 gpuPixelSpanFn<0x00<<1>, gpuPixelSpanFn<0x01<<1>, gpuPixelSpanFn<0x02<<1>, gpuPixelSpanFn<0x03<<1>,
238 PixelSpanNULL, gpuPixelSpanFn<0x05<<1>, PixelSpanNULL, gpuPixelSpanFn<0x07<<1>,
239 PixelSpanNULL, gpuPixelSpanFn<0x09<<1>, PixelSpanNULL, gpuPixelSpanFn<0x0B<<1>,
240 PixelSpanNULL, gpuPixelSpanFn<0x0D<<1>, PixelSpanNULL, gpuPixelSpanFn<0x0F<<1>,
242 // Flat-shaded + PixelMSB (CF_MASKSET)
243 gpuPixelSpanFn<(0x00<<1)|0x100>, gpuPixelSpanFn<(0x01<<1)|0x100>, gpuPixelSpanFn<(0x02<<1)|0x100>, gpuPixelSpanFn<(0x03<<1)|0x100>,
244 PixelSpanNULL, gpuPixelSpanFn<(0x05<<1)|0x100>, PixelSpanNULL, gpuPixelSpanFn<(0x07<<1)|0x100>,
245 PixelSpanNULL, gpuPixelSpanFn<(0x09<<1)|0x100>, PixelSpanNULL, gpuPixelSpanFn<(0x0B<<1)|0x100>,
246 PixelSpanNULL, gpuPixelSpanFn<(0x0D<<1)|0x100>, PixelSpanNULL, gpuPixelSpanFn<(0x0F<<1)|0x100>,
248 // Gouraud-shaded (CF_GOURAUD)
249 gpuPixelSpanFn<(0x00<<1)|0x80>, gpuPixelSpanFn<(0x01<<1)|0x80>, gpuPixelSpanFn<(0x02<<1)|0x80>, gpuPixelSpanFn<(0x03<<1)|0x80>,
250 PixelSpanNULL, gpuPixelSpanFn<(0x05<<1)|0x80>, PixelSpanNULL, gpuPixelSpanFn<(0x07<<1)|0x80>,
251 PixelSpanNULL, gpuPixelSpanFn<(0x09<<1)|0x80>, PixelSpanNULL, gpuPixelSpanFn<(0x0B<<1)|0x80>,
252 PixelSpanNULL, gpuPixelSpanFn<(0x0D<<1)|0x80>, PixelSpanNULL, gpuPixelSpanFn<(0x0F<<1)|0x80>,
254 // Gouraud-shaded (CF_GOURAUD) + PixelMSB (CF_MASKSET)
255 gpuPixelSpanFn<(0x00<<1)|0x180>, gpuPixelSpanFn<(0x01<<1)|0x180>, gpuPixelSpanFn<(0x02<<1)|0x180>, gpuPixelSpanFn<(0x03<<1)|0x180>,
256 PixelSpanNULL, gpuPixelSpanFn<(0x05<<1)|0x180>, PixelSpanNULL, gpuPixelSpanFn<(0x07<<1)|0x180>,
257 PixelSpanNULL, gpuPixelSpanFn<(0x09<<1)|0x180>, PixelSpanNULL, gpuPixelSpanFn<(0x0B<<1)|0x180>,
258 PixelSpanNULL, gpuPixelSpanFn<(0x0D<<1)|0x180>, PixelSpanNULL, gpuPixelSpanFn<(0x0F<<1)|0x180>
261 ///////////////////////////////////////////////////////////////////////////////
262 // GPU Tiles innerloops generator
265 static void gpuTileSpanFn(u16 *pDst, u32 count, u16 data)
267 if (!CF_MASKCHECK && !CF_BLEND) {
268 if (CF_MASKSET) { data = data | 0x8000; }
269 do { *pDst++ = data; } while (--count);
270 } else if (CF_MASKCHECK && !CF_BLEND) {
271 if (CF_MASKSET) { data = data | 0x8000; }
272 do { if (!(*pDst&0x8000)) { *pDst = data; } pDst++; } while (--count);
275 // Blend func can save an operation if it knows uSrc MSB is
276 // unset. For untextured prims, this is always true.
277 const bool skip_uSrc_mask = true;
282 if (CF_MASKCHECK || CF_BLEND) { uDst = *pDst; }
283 if (CF_MASKCHECK) { if (uDst&0x8000) goto endtile; }
288 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
290 if (CF_MASKSET) { *pDst = uSrc | 0x8000; }
291 else { *pDst = uSrc; }
293 //senquack - Did not apply "Silent Hill" mask-bit fix to here.
294 // It is hard to tell from scarce documentation available and
295 // lack of comments in code, but I believe the tile-span
296 // functions here should not bother to preserve any source MSB,
297 // as they are not drawing from a texture.
305 static void TileNULL(u16 *pDst, u32 count, u16 data)
307 #ifdef ENABLE_GPU_LOG_SUPPORT
308 fprintf(stdout,"TileNULL()\n");
312 ///////////////////////////////////////////////////////////////////////////////
313 // Tiles innerloops driver
314 typedef void (*PT)(u16 *pDst, u32 count, u16 data);
316 // Template instantiation helper macros
317 #define TI(cf) gpuTileSpanFn<(cf)>
319 #define TIBLOCK(ub) \
320 TI((ub)|0x00), TI((ub)|0x02), TI((ub)|0x04), TI((ub)|0x06), \
321 TN, TI((ub)|0x0a), TN, TI((ub)|0x0e), \
322 TN, TI((ub)|0x12), TN, TI((ub)|0x16), \
323 TN, TI((ub)|0x1a), TN, TI((ub)|0x1e)
325 const PT gpuTileSpanDrivers[32] = {
326 TIBLOCK(0<<8), TIBLOCK(1<<8)
334 ///////////////////////////////////////////////////////////////////////////////
335 // GPU Sprites innerloops generator
338 static void gpuSpriteSpanFn(u16 *pDst, u32 count, u8* pTxt, u32 u0)
340 // Blend func can save an operation if it knows uSrc MSB is unset.
341 // Untextured prims can always skip (source color always comes with MSB=0).
342 // For textured prims, lighting funcs always return it unset. (bonus!)
343 const bool skip_uSrc_mask = (!CF_TEXTMODE) || CF_LIGHT;
345 u16 uSrc, uDst, srcMSB;
346 u32 u0_mask = gpu_unai.TextureWindow[2];
355 if (CF_TEXTMODE==3) {
356 // Texture is accessed byte-wise, so adjust mask if 16bpp
360 const u16 *CBA_; if (CF_TEXTMODE!=3) CBA_ = gpu_unai.CBA;
364 if (CF_MASKCHECK || CF_BLEND) { uDst = *pDst; }
365 if (CF_MASKCHECK) if (uDst&0x8000) { goto endsprite; }
367 if (CF_TEXTMODE==1) { // 4bpp (CLUT)
368 u8 rgb = pTxt[(u0 & u0_mask)>>1];
369 uSrc = CBA_[(rgb>>((u0&1)<<2))&0xf];
371 if (CF_TEXTMODE==2) { // 8bpp (CLUT)
372 uSrc = CBA_[pTxt[u0 & u0_mask]];
374 if (CF_TEXTMODE==3) { // 16bpp
375 uSrc = *(u16*)(&pTxt[u0 & u0_mask]);
378 if (!uSrc) goto endsprite;
380 //senquack - save source MSB, as blending or lighting macros will not
381 // (Silent Hill gray rectangles mask bit bug)
382 if (CF_BLEND || CF_LIGHT) srcMSB = uSrc & 0x8000;
385 uSrc = gpuLightingTXT(uSrc, r5, g5, b5);
387 if (CF_BLEND && srcMSB)
388 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
390 if (CF_MASKSET) { *pDst = uSrc | 0x8000; }
391 else if (CF_BLEND || CF_LIGHT) { *pDst = uSrc | srcMSB; }
392 else { *pDst = uSrc; }
395 u0 += (CF_TEXTMODE==3) ? 2 : 1;
401 static void SpriteNULL(u16 *pDst, u32 count, u8* pTxt, u32 u0)
403 #ifdef ENABLE_GPU_LOG_SUPPORT
404 fprintf(stdout,"SpriteNULL()\n");
408 ///////////////////////////////////////////////////////////////////////////////
410 ///////////////////////////////////////////////////////////////////////////////
411 // Sprite innerloops driver
412 typedef void (*PS)(u16 *pDst, u32 count, u8* pTxt, u32 u0);
414 // Template instantiation helper macros
415 #define TI(cf) gpuSpriteSpanFn<(cf)>
416 #define TN SpriteNULL
417 #define TIBLOCK(ub) \
418 TN, TN, TN, TN, TN, TN, TN, TN, \
419 TN, TN, TN, TN, TN, TN, TN, TN, \
420 TN, TN, TN, TN, TN, TN, TN, TN, \
421 TN, TN, TN, TN, TN, TN, TN, TN, \
422 TI((ub)|0x20), TI((ub)|0x21), TI((ub)|0x22), TI((ub)|0x23), TI((ub)|0x24), TI((ub)|0x25), TI((ub)|0x26), TI((ub)|0x27), \
423 TN, TN, TI((ub)|0x2a), TI((ub)|0x2b), TN, TN, TI((ub)|0x2e), TI((ub)|0x2f), \
424 TN, TN, TI((ub)|0x32), TI((ub)|0x33), TN, TN, TI((ub)|0x36), TI((ub)|0x37), \
425 TN, TN, TI((ub)|0x3a), TI((ub)|0x3b), TN, TN, TI((ub)|0x3e), TI((ub)|0x3f), \
426 TI((ub)|0x40), TI((ub)|0x41), TI((ub)|0x42), TI((ub)|0x43), TI((ub)|0x44), TI((ub)|0x45), TI((ub)|0x46), TI((ub)|0x47), \
427 TN, TN, TI((ub)|0x4a), TI((ub)|0x4b), TN, TN, TI((ub)|0x4e), TI((ub)|0x4f), \
428 TN, TN, TI((ub)|0x52), TI((ub)|0x53), TN, TN, TI((ub)|0x56), TI((ub)|0x57), \
429 TN, TN, TI((ub)|0x5a), TI((ub)|0x5b), TN, TN, TI((ub)|0x5e), TI((ub)|0x5f), \
430 TI((ub)|0x60), TI((ub)|0x61), TI((ub)|0x62), TI((ub)|0x63), TI((ub)|0x64), TI((ub)|0x65), TI((ub)|0x66), TI((ub)|0x67), \
431 TN, TN, TI((ub)|0x6a), TI((ub)|0x6b), TN, TN, TI((ub)|0x6e), TI((ub)|0x6f), \
432 TN, TN, TI((ub)|0x72), TI((ub)|0x73), TN, TN, TI((ub)|0x76), TI((ub)|0x77), \
433 TN, TN, TI((ub)|0x7a), TI((ub)|0x7b), TN, TN, TI((ub)|0x7e), TI((ub)|0x7f)
435 const PS gpuSpriteSpanDrivers[256] = {
436 TIBLOCK(0<<8), TIBLOCK(1<<8)
443 ///////////////////////////////////////////////////////////////////////////////
444 // GPU Polygon innerloops generator
446 //senquack - Newer version with following changes:
447 // * Adapted to work with new poly routings in gpu_raster_polygon.h
448 // adapted from DrHell GPU. They are less glitchy and use 22.10
449 // fixed-point instead of original UNAI's 16.16.
450 // * Texture coordinates are no longer packed together into one
451 // unsigned int. This seems to lose too much accuracy (they each
452 // end up being only 8.7 fixed-point that way) and pixel-droupouts
453 // were noticeable both with original code and current DrHell
454 // adaptations. An example would be the sky in NFS3. Now, they are
455 // stored in separate ints, using separate masks.
456 // * Function is no longer INLINE, as it was always called
457 // through a function pointer.
458 // * Function now ensures the mask bit of source texture is preserved
459 // across calls to blending functions (Silent Hill rectangles fix)
460 // * November 2016: Large refactoring of blending/lighting when
461 // JohnnyF added dithering. See gpu_inner_quantization.h and
462 // relevant blend/light headers.
463 // (see README_senquack.txt)
465 static void gpuPolySpanFn(const gpu_unai_t &gpu_unai, u16 *pDst, u32 count)
467 // Blend func can save an operation if it knows uSrc MSB is unset.
468 // Untextured prims can always skip this (src color MSB is always 0).
469 // For textured prims, lighting funcs always return it unset. (bonus!)
470 const bool skip_uSrc_mask = (!CF_TEXTMODE) || CF_LIGHT;
472 u32 bMsk; if (CF_BLITMASK) bMsk = gpu_unai.blit_mask;
478 // UNTEXTURED, NO GOURAUD
479 const u16 pix15 = gpu_unai.PixelData;
483 // NOTE: Don't enable CF_BLITMASK pixel skipping (speed hack)
484 // on untextured polys. It seems to do more harm than good: see
485 // gravestone text at end of Medieval intro sequence. -senquack
486 //if (CF_BLITMASK) { if ((bMsk>>((((uintptr_t)pDst)>>1)&7))&1) { goto endpolynotextnogou; } }
488 if (CF_BLEND || CF_MASKCHECK) uDst = *pDst;
489 if (CF_MASKCHECK) { if (uDst&0x8000) { goto endpolynotextnogou; } }
494 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
496 if (CF_MASKSET) { *pDst = uSrc | 0x8000; }
497 else { *pDst = uSrc; }
505 // UNTEXTURED, GOURAUD
506 u32 l_gCol = gpu_unai.gCol;
507 u32 l_gInc = gpu_unai.gInc;
512 // See note in above loop regarding CF_BLITMASK
513 //if (CF_BLITMASK) { if ((bMsk>>((((uintptr_t)pDst)>>1)&7))&1) goto endpolynotextgou; }
515 if (CF_BLEND || CF_MASKCHECK) uDst = *pDst;
516 if (CF_MASKCHECK) { if (uDst&0x8000) goto endpolynotextgou; }
521 u32 uSrc24 = gpuLightingRGB24(l_gCol);
523 uSrc24 = gpuBlending24<CF_BLENDMODE>(uSrc24, uDst);
524 uSrc = gpuColorQuantization24<CF_DITHER>(uSrc24, pDst);
526 // GOURAUD, NO DITHER
528 uSrc = gpuLightingRGB(l_gCol);
531 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
534 if (CF_MASKSET) { *pDst = uSrc | 0x8000; }
535 else { *pDst = uSrc; }
548 u16 uDst, uSrc, srcMSB;
550 //senquack - note: original UNAI code had gpu_unai.{u4/v4} packed into
551 // one 32-bit unsigned int, but this proved to lose too much accuracy
552 // (pixel drouputs noticeable in NFS3 sky), so now are separate vars.
553 u32 l_u_msk = gpu_unai.u_msk; u32 l_v_msk = gpu_unai.v_msk;
554 u32 l_u = gpu_unai.u & l_u_msk; u32 l_v = gpu_unai.v & l_v_msk;
555 s32 l_u_inc = gpu_unai.u_inc; s32 l_v_inc = gpu_unai.v_inc;
557 const u16* TBA_ = gpu_unai.TBA;
558 const u16* CBA_; if (CF_TEXTMODE!=3) CBA_ = gpu_unai.CBA;
567 l_gInc = gpu_unai.gInc;
568 l_gCol = gpu_unai.gCol;
584 if (CF_BLITMASK) { if ((bMsk>>((((uintptr_t)pDst)>>1)&7))&1) goto endpolytext; }
585 if (CF_MASKCHECK || CF_BLEND) { uDst = *pDst; }
586 if (CF_MASKCHECK) if (uDst&0x8000) { goto endpolytext; }
588 //senquack - adapted to work with new 22.10 fixed point routines:
589 // (UNAI originally used 16.16)
590 if (CF_TEXTMODE==1) { // 4bpp (CLUT)
592 u32 tv=(l_v<<1)&(0xff<<11);
593 u8 rgb=((u8*)TBA_)[tv+(tu>>1)];
594 uSrc=CBA_[(rgb>>((tu&1)<<2))&0xf];
595 if (!uSrc) goto endpolytext;
597 if (CF_TEXTMODE==2) { // 8bpp (CLUT)
598 uSrc = CBA_[(((u8*)TBA_)[(l_u>>10)+((l_v<<1)&(0xff<<11))])];
599 if (!uSrc) goto endpolytext;
601 if (CF_TEXTMODE==3) { // 16bpp
602 uSrc = TBA_[(l_u>>10)+((l_v)&(0xff<<10))];
603 if (!uSrc) goto endpolytext;
606 // Save source MSB, as blending or lighting will not (Silent Hill)
607 if (CF_BLEND || CF_LIGHT) srcMSB = uSrc & 0x8000;
609 // When textured, only dither when LIGHT (texture blend) is enabled
610 // LIGHT && BLEND => dither
611 // LIGHT && !BLEND => dither
612 //!LIGHT && BLEND => no dither
613 //!LIGHT && !BLEND => no dither
615 if (CF_DITHER && CF_LIGHT) {
618 uSrc24 = gpuLightingTXT24Gouraud(uSrc, l_gCol);
620 uSrc24 = gpuLightingTXT24(uSrc, r8, g8, b8);
622 if (CF_BLEND && srcMSB)
623 uSrc24 = gpuBlending24<CF_BLENDMODE>(uSrc24, uDst);
625 uSrc = gpuColorQuantization24<CF_DITHER>(uSrc24, pDst);
630 uSrc = gpuLightingTXTGouraud(uSrc, l_gCol);
632 uSrc = gpuLightingTXT(uSrc, r5, g5, b5);
635 if (CF_BLEND && srcMSB)
636 uSrc = gpuBlending<CF_BLENDMODE, skip_uSrc_mask>(uSrc, uDst);
639 if (CF_MASKSET) { *pDst = uSrc | 0x8000; }
640 else if (CF_BLEND || CF_LIGHT) { *pDst = uSrc | srcMSB; }
641 else { *pDst = uSrc; }
644 l_u = (l_u + l_u_inc) & l_u_msk;
645 l_v = (l_v + l_v_inc) & l_v_msk;
646 if (CF_LIGHT && CF_GOURAUD) l_gCol += l_gInc;
652 static void PolyNULL(const gpu_unai_t &gpu_unai, u16 *pDst, u32 count)
654 #ifdef ENABLE_GPU_LOG_SUPPORT
655 fprintf(stdout,"PolyNULL()\n");
659 ///////////////////////////////////////////////////////////////////////////////
660 // Polygon innerloops driver
661 typedef void (*PP)(const gpu_unai_t &gpu_unai, u16 *pDst, u32 count);
663 // Template instantiation helper macros
664 #define TI(cf) gpuPolySpanFn<(cf)>
666 #define TIBLOCK(ub) \
667 TI((ub)|0x00), TI((ub)|0x01), TI((ub)|0x02), TI((ub)|0x03), TI((ub)|0x04), TI((ub)|0x05), TI((ub)|0x06), TI((ub)|0x07), \
668 TN, TN, TI((ub)|0x0a), TI((ub)|0x0b), TN, TN, TI((ub)|0x0e), TI((ub)|0x0f), \
669 TN, TN, TI((ub)|0x12), TI((ub)|0x13), TN, TN, TI((ub)|0x16), TI((ub)|0x17), \
670 TN, TN, TI((ub)|0x1a), TI((ub)|0x1b), TN, TN, TI((ub)|0x1e), TI((ub)|0x1f), \
671 TI((ub)|0x20), TI((ub)|0x21), TI((ub)|0x22), TI((ub)|0x23), TI((ub)|0x24), TI((ub)|0x25), TI((ub)|0x26), TI((ub)|0x27), \
672 TN, TN, TI((ub)|0x2a), TI((ub)|0x2b), TN, TN, TI((ub)|0x2e), TI((ub)|0x2f), \
673 TN, TN, TI((ub)|0x32), TI((ub)|0x33), TN, TN, TI((ub)|0x36), TI((ub)|0x37), \
674 TN, TN, TI((ub)|0x3a), TI((ub)|0x3b), TN, TN, TI((ub)|0x3e), TI((ub)|0x3f), \
675 TI((ub)|0x40), TI((ub)|0x41), TI((ub)|0x42), TI((ub)|0x43), TI((ub)|0x44), TI((ub)|0x45), TI((ub)|0x46), TI((ub)|0x47), \
676 TN, TN, TI((ub)|0x4a), TI((ub)|0x4b), TN, TN, TI((ub)|0x4e), TI((ub)|0x4f), \
677 TN, TN, TI((ub)|0x52), TI((ub)|0x53), TN, TN, TI((ub)|0x56), TI((ub)|0x57), \
678 TN, TN, TI((ub)|0x5a), TI((ub)|0x5b), TN, TN, TI((ub)|0x5e), TI((ub)|0x5f), \
679 TI((ub)|0x60), TI((ub)|0x61), TI((ub)|0x62), TI((ub)|0x63), TI((ub)|0x64), TI((ub)|0x65), TI((ub)|0x66), TI((ub)|0x67), \
680 TN, TN, TI((ub)|0x6a), TI((ub)|0x6b), TN, TN, TI((ub)|0x6e), TI((ub)|0x6f), \
681 TN, TN, TI((ub)|0x72), TI((ub)|0x73), TN, TN, TI((ub)|0x76), TI((ub)|0x77), \
682 TN, TN, TI((ub)|0x7a), TI((ub)|0x7b), TN, TN, TI((ub)|0x7e), TI((ub)|0x7f), \
683 TN, TI((ub)|0x81), TN, TI((ub)|0x83), TN, TI((ub)|0x85), TN, TI((ub)|0x87), \
684 TN, TN, TN, TI((ub)|0x8b), TN, TN, TN, TI((ub)|0x8f), \
685 TN, TN, TN, TI((ub)|0x93), TN, TN, TN, TI((ub)|0x97), \
686 TN, TN, TN, TI((ub)|0x9b), TN, TN, TN, TI((ub)|0x9f), \
687 TN, TI((ub)|0xa1), TN, TI((ub)|0xa3), TN, TI((ub)|0xa5), TN, TI((ub)|0xa7), \
688 TN, TN, TN, TI((ub)|0xab), TN, TN, TN, TI((ub)|0xaf), \
689 TN, TN, TN, TI((ub)|0xb3), TN, TN, TN, TI((ub)|0xb7), \
690 TN, TN, TN, TI((ub)|0xbb), TN, TN, TN, TI((ub)|0xbf), \
691 TN, TI((ub)|0xc1), TN, TI((ub)|0xc3), TN, TI((ub)|0xc5), TN, TI((ub)|0xc7), \
692 TN, TN, TN, TI((ub)|0xcb), TN, TN, TN, TI((ub)|0xcf), \
693 TN, TN, TN, TI((ub)|0xd3), TN, TN, TN, TI((ub)|0xd7), \
694 TN, TN, TN, TI((ub)|0xdb), TN, TN, TN, TI((ub)|0xdf), \
695 TN, TI((ub)|0xe1), TN, TI((ub)|0xe3), TN, TI((ub)|0xe5), TN, TI((ub)|0xe7), \
696 TN, TN, TN, TI((ub)|0xeb), TN, TN, TN, TI((ub)|0xef), \
697 TN, TN, TN, TI((ub)|0xf3), TN, TN, TN, TI((ub)|0xf7), \
698 TN, TN, TN, TI((ub)|0xfb), TN, TN, TN, TI((ub)|0xff)
700 const PP gpuPolySpanDrivers[2048] = {
701 TIBLOCK(0<<8), TIBLOCK(1<<8), TIBLOCK(2<<8), TIBLOCK(3<<8),
702 TIBLOCK(4<<8), TIBLOCK(5<<8), TIBLOCK(6<<8), TIBLOCK(7<<8)