mirror of
https://github.com/ZDoom/qzdoom-gpl.git
synced 2024-12-11 12:51:27 +00:00
Palette version of sky drawers
This commit is contained in:
parent
d5865a46a0
commit
4ccb69fa61
4 changed files with 285 additions and 15 deletions
240
src/r_draw.cpp
240
src/r_draw.cpp
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@ -2235,6 +2235,246 @@ void tmvline4_revsubclamp_C ()
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} while (--count);
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}
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void R_DrawSingleSkyCol1(uint32_t solid_top, uint32_t solid_bottom)
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{
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uint8_t *dest = dc_dest;
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int count = dc_count;
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int pitch = dc_pitch;
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const uint8_t *source0 = bufplce[0];
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int textureheight0 = bufheight[0];
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int32_t frac = vplce[0];
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int32_t fracstep = vince[0];
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int start_fade = 2; // How fast it should fade out
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int solid_top_r = RPART(solid_top);
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int solid_top_g = GPART(solid_top);
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int solid_top_b = BPART(solid_top);
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int solid_bottom_r = RPART(solid_bottom);
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int solid_bottom_g = GPART(solid_bottom);
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int solid_bottom_b = BPART(solid_bottom);
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for (int index = 0; index < count; index++)
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{
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uint32_t sample_index = (((((uint32_t)frac) << 8) >> FRACBITS) * textureheight0) >> FRACBITS;
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uint8_t fg = source0[sample_index];
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int alpha_top = MAX(MIN(frac >> (16 - start_fade), 256), 0);
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int alpha_bottom = MAX(MIN(((2 << 24) - frac) >> (16 - start_fade), 256), 0);
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if (alpha_top == 256 && alpha_bottom == 256)
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{
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*dest = fg;
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}
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else
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{
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int inv_alpha_top = 256 - alpha_top;
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int inv_alpha_bottom = 256 - alpha_bottom;
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const auto &c = GPalette.BaseColors[fg];
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int c_red = c.r;
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int c_green = c.g;
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int c_blue = c.b;
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c_red = (c_red * alpha_top + solid_top_r * inv_alpha_top) >> 8;
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c_green = (c_green * alpha_top + solid_top_g * inv_alpha_top) >> 8;
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c_blue = (c_blue * alpha_top + solid_top_b * inv_alpha_top) >> 8;
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c_red = (c_red * alpha_bottom + solid_bottom_r * inv_alpha_bottom) >> 8;
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c_green = (c_green * alpha_bottom + solid_bottom_g * inv_alpha_bottom) >> 8;
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c_blue = (c_blue * alpha_bottom + solid_bottom_b * inv_alpha_bottom) >> 8;
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*dest = RGB32k.RGB[(c_red >> 3)][(c_green >> 3)][(c_blue >> 3)];
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}
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frac += fracstep;
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dest += pitch;
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}
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}
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void R_DrawSingleSkyCol4(uint32_t solid_top, uint32_t solid_bottom)
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{
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for (int col = 0; col < 4; col++)
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{
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uint8_t *dest = dc_dest + col;
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int count = dc_count;
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int pitch = dc_pitch;
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const uint8_t *source0 = bufplce[col];
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int textureheight0 = bufheight[0];
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int32_t frac = vplce[col];
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int32_t fracstep = vince[col];
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int start_fade = 2; // How fast it should fade out
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int solid_top_r = RPART(solid_top);
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int solid_top_g = GPART(solid_top);
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int solid_top_b = BPART(solid_top);
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int solid_bottom_r = RPART(solid_bottom);
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int solid_bottom_g = GPART(solid_bottom);
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int solid_bottom_b = BPART(solid_bottom);
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for (int index = 0; index < count; index++)
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{
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uint32_t sample_index = (((((uint32_t)frac) << 8) >> FRACBITS) * textureheight0) >> FRACBITS;
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uint8_t fg = source0[sample_index];
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int alpha_top = MAX(MIN(frac >> (16 - start_fade), 256), 0);
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int alpha_bottom = MAX(MIN(((2 << 24) - frac) >> (16 - start_fade), 256), 0);
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if (alpha_top == 256 && alpha_bottom == 256)
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{
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*dest = fg;
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}
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else
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{
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int inv_alpha_top = 256 - alpha_top;
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int inv_alpha_bottom = 256 - alpha_bottom;
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const auto &c = GPalette.BaseColors[fg];
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int c_red = c.r;
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int c_green = c.g;
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int c_blue = c.b;
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c_red = (c_red * alpha_top + solid_top_r * inv_alpha_top) >> 8;
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c_green = (c_green * alpha_top + solid_top_g * inv_alpha_top) >> 8;
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c_blue = (c_blue * alpha_top + solid_top_b * inv_alpha_top) >> 8;
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c_red = (c_red * alpha_bottom + solid_bottom_r * inv_alpha_bottom) >> 8;
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c_green = (c_green * alpha_bottom + solid_bottom_g * inv_alpha_bottom) >> 8;
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c_blue = (c_blue * alpha_bottom + solid_bottom_b * inv_alpha_bottom) >> 8;
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*dest = RGB32k.RGB[(c_red >> 3)][(c_green >> 3)][(c_blue >> 3)];
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}
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frac += fracstep;
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dest += pitch;
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}
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}
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}
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void R_DrawDoubleSkyCol1(uint32_t solid_top, uint32_t solid_bottom)
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{
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uint8_t *dest = dc_dest;
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int count = dc_count;
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int pitch = dc_pitch;
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const uint8_t *source0 = bufplce[0];
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const uint8_t *source1 = bufplce2[0];
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int textureheight0 = bufheight[0];
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uint32_t maxtextureheight1 = bufheight[1] - 1;
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int32_t frac = vplce[0];
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int32_t fracstep = vince[0];
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int start_fade = 2; // How fast it should fade out
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int solid_top_r = RPART(solid_top);
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int solid_top_g = GPART(solid_top);
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int solid_top_b = BPART(solid_top);
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int solid_bottom_r = RPART(solid_bottom);
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int solid_bottom_g = GPART(solid_bottom);
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int solid_bottom_b = BPART(solid_bottom);
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for (int index = 0; index < count; index++)
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{
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uint32_t sample_index = (((((uint32_t)frac) << 8) >> FRACBITS) * textureheight0) >> FRACBITS;
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uint8_t fg = source0[sample_index];
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if (fg == 0)
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{
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uint32_t sample_index2 = MIN(sample_index, maxtextureheight1);
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fg = source1[sample_index2];
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}
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int alpha_top = MAX(MIN(frac >> (16 - start_fade), 256), 0);
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int alpha_bottom = MAX(MIN(((2 << 24) - frac) >> (16 - start_fade), 256), 0);
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if (alpha_top == 256 && alpha_bottom == 256)
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{
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*dest = fg;
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}
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else
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{
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int inv_alpha_top = 256 - alpha_top;
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int inv_alpha_bottom = 256 - alpha_bottom;
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const auto &c = GPalette.BaseColors[fg];
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int c_red = c.r;
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int c_green = c.g;
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int c_blue = c.b;
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c_red = (c_red * alpha_top + solid_top_r * inv_alpha_top) >> 8;
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c_green = (c_green * alpha_top + solid_top_g * inv_alpha_top) >> 8;
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c_blue = (c_blue * alpha_top + solid_top_b * inv_alpha_top) >> 8;
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c_red = (c_red * alpha_bottom + solid_bottom_r * inv_alpha_bottom) >> 8;
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c_green = (c_green * alpha_bottom + solid_bottom_g * inv_alpha_bottom) >> 8;
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c_blue = (c_blue * alpha_bottom + solid_bottom_b * inv_alpha_bottom) >> 8;
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*dest = RGB32k.RGB[(c_red >> 3)][(c_green >> 3)][(c_blue >> 3)];
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}
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frac += fracstep;
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dest += pitch;
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}
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}
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void R_DrawDoubleSkyCol4(uint32_t solid_top, uint32_t solid_bottom)
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{
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for (int col = 0; col < 4; col++)
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{
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uint8_t *dest = dc_dest + col;
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int count = dc_count;
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int pitch = dc_pitch;
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const uint8_t *source0 = bufplce[col];
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const uint8_t *source1 = bufplce2[col];
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int textureheight0 = bufheight[0];
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uint32_t maxtextureheight1 = bufheight[1] - 1;
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int32_t frac = vplce[col];
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int32_t fracstep = vince[col];
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int start_fade = 2; // How fast it should fade out
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int solid_top_r = RPART(solid_top);
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int solid_top_g = GPART(solid_top);
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int solid_top_b = BPART(solid_top);
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int solid_bottom_r = RPART(solid_bottom);
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int solid_bottom_g = GPART(solid_bottom);
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int solid_bottom_b = BPART(solid_bottom);
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for (int index = 0; index < count; index++)
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{
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uint32_t sample_index = (((((uint32_t)frac) << 8) >> FRACBITS) * textureheight0) >> FRACBITS;
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uint8_t fg = source0[sample_index];
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if (fg == 0)
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{
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uint32_t sample_index2 = MIN(sample_index, maxtextureheight1);
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fg = source1[sample_index2];
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}
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int alpha_top = MAX(MIN(frac >> (16 - start_fade), 256), 0);
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int alpha_bottom = MAX(MIN(((2 << 24) - frac) >> (16 - start_fade), 256), 0);
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if (alpha_top == 256 && alpha_bottom == 256)
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{
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*dest = fg;
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}
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else
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{
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int inv_alpha_top = 256 - alpha_top;
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int inv_alpha_bottom = 256 - alpha_bottom;
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const auto &c = GPalette.BaseColors[fg];
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int c_red = c.r;
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int c_green = c.g;
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int c_blue = c.b;
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c_red = (c_red * alpha_top + solid_top_r * inv_alpha_top) >> 8;
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c_green = (c_green * alpha_top + solid_top_g * inv_alpha_top) >> 8;
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c_blue = (c_blue * alpha_top + solid_top_b * inv_alpha_top) >> 8;
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c_red = (c_red * alpha_bottom + solid_bottom_r * inv_alpha_bottom) >> 8;
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c_green = (c_green * alpha_bottom + solid_bottom_g * inv_alpha_bottom) >> 8;
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c_blue = (c_blue * alpha_bottom + solid_bottom_b * inv_alpha_bottom) >> 8;
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*dest = RGB32k.RGB[(c_red >> 3)][(c_green >> 3)][(c_blue >> 3)];
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}
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frac += fracstep;
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dest += pitch;
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}
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}
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}
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//==========================================================================
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//
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// R_GetColumn
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@ -387,6 +387,11 @@ void R_DrawSingleSkyCol4(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawDoubleSkyCol1(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawDoubleSkyCol4(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawSingleSkyCol1_rgba(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawSingleSkyCol4_rgba(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawDoubleSkyCol1_rgba(uint32_t solid_top, uint32_t solid_bottom);
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void R_DrawDoubleSkyCol4_rgba(uint32_t solid_top, uint32_t solid_bottom);
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struct TriVertex
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{
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TriVertex() { }
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@ -1692,22 +1692,22 @@ void R_DrawTriangles(const VSMatrix &objectToWorld, const TriVertex *vertices, i
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/////////////////////////////////////////////////////////////////////////////
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void R_DrawSingleSkyCol1(uint32_t solid_top, uint32_t solid_bottom)
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void R_DrawSingleSkyCol1_rgba(uint32_t solid_top, uint32_t solid_bottom)
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{
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DrawerCommandQueue::QueueCommand<DrawSingleSky1LLVMCommand>(solid_top, solid_bottom);
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}
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void R_DrawSingleSkyCol4(uint32_t solid_top, uint32_t solid_bottom)
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void R_DrawSingleSkyCol4_rgba(uint32_t solid_top, uint32_t solid_bottom)
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{
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DrawerCommandQueue::QueueCommand<DrawSingleSky4LLVMCommand>(solid_top, solid_bottom);
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}
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void R_DrawDoubleSkyCol1(uint32_t solid_top, uint32_t solid_bottom)
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void R_DrawDoubleSkyCol1_rgba(uint32_t solid_top, uint32_t solid_bottom)
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{
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DrawerCommandQueue::QueueCommand<DrawDoubleSky1LLVMCommand>(solid_top, solid_bottom);
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}
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void R_DrawDoubleSkyCol4(uint32_t solid_top, uint32_t solid_bottom)
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void R_DrawDoubleSkyCol4_rgba(uint32_t solid_top, uint32_t solid_bottom)
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{
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DrawerCommandQueue::QueueCommand<DrawDoubleSky4LLVMCommand>(solid_top, solid_bottom);
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}
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@ -1020,30 +1020,55 @@ static void R_DrawSkyColumnStripe(int start_x, int y1, int y2, int columns, doub
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angle1 = (DWORD)((UMulScale16(ang, frontcyl) + frontpos) >> FRACBITS);
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angle2 = (DWORD)((UMulScale16(ang, backcyl) + backpos) >> FRACBITS);
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bufplce[i] = (const BYTE *)frontskytex->GetColumnBgra(angle1, nullptr);
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bufplce2[i] = backskytex ? (const BYTE *)backskytex->GetColumnBgra(angle2, nullptr) : nullptr;
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if (r_swtruecolor)
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{
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bufplce[i] = (const BYTE *)frontskytex->GetColumnBgra(angle1, nullptr);
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bufplce2[i] = backskytex ? (const BYTE *)backskytex->GetColumnBgra(angle2, nullptr) : nullptr;
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}
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else
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{
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bufplce[i] = (const BYTE *)frontskytex->GetColumn(angle1, nullptr);
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bufplce2[i] = backskytex ? (const BYTE *)backskytex->GetColumn(angle2, nullptr) : nullptr;
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}
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vince[i] = uv_step;
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vplce[i] = uv_pos;
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}
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bufheight[0] = height;
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bufheight[1] = backskytex ? backskytex->GetHeight() : height;
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dc_dest = (ylookup[y1] + start_x) * 4 + dc_destorg;
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int pixelsize = r_swtruecolor ? 4 : 1;
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dc_dest = (ylookup[y1] + start_x) * pixelsize + dc_destorg;
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dc_count = y2 - y1;
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uint32_t solid_top = frontskytex->GetSkyCapColor(false);
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uint32_t solid_bottom = frontskytex->GetSkyCapColor(true);
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if (columns == 4)
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if (!backskytex)
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R_DrawSingleSkyCol4(solid_top, solid_bottom);
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if (r_swtruecolor)
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{
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if (columns == 4)
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if (!backskytex)
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R_DrawSingleSkyCol4_rgba(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol4_rgba(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol4(solid_top, solid_bottom);
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if (!backskytex)
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R_DrawSingleSkyCol1_rgba(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol1_rgba(solid_top, solid_bottom);
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}
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else
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if (!backskytex)
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R_DrawSingleSkyCol1(solid_top, solid_bottom);
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{
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if (columns == 4)
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if (!backskytex)
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R_DrawSingleSkyCol4(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol4(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol1(solid_top, solid_bottom);
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if (!backskytex)
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R_DrawSingleSkyCol1(solid_top, solid_bottom);
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else
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R_DrawDoubleSkyCol1(solid_top, solid_bottom);
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}
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}
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static void R_DrawSkyColumn(int start_x, int y1, int y2, int columns)
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@ -1253,7 +1278,7 @@ static void R_DrawSky (visplane_t *pl)
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R_DrawCubeSky(pl);
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return;
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}
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else if (r_swtruecolor && r_capsky)
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else if (r_capsky)
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{
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R_DrawCapSky(pl);
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return;
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