mirror of
https://github.com/RetroDECK/Duckstation.git
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405 lines
18 KiB
HLSL
405 lines
18 KiB
HLSL
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#ifndef _DERIVED_SETTINGS_AND_CONSTANTS_H
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#define _DERIVED_SETTINGS_AND_CONSTANTS_H
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#include "helper-functions-and-macros.fxh"
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#include "user-settings.fxh"
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///////////////////////////// GPL LICENSE NOTICE /////////////////////////////
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// crt-royale: A full-featured CRT shader, with cheese.
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// Copyright (C) 2014 TroggleMonkey <trogglemonkey@gmx.com>
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//
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// crt-royale-reshade: A port of TroggleMonkey's crt-royale from libretro to ReShade.
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// Copyright (C) 2020 Alex Gunter <akg7634@gmail.com>
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//
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// This program is free software; you can redistribute it and/or modify it
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// under the terms of the GNU General Public License as published by the Free
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// Software Foundation; either version 2 of the License, or any later version.
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//
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// This program is distributed in the hope that it will be useful, but WITHOUT
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// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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// more details.
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//
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// You should have received a copy of the GNU General Public License along with
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// this program; if not, write to the Free Software Foundation, Inc., 59 Temple
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// Place, Suite 330, Boston, MA 02111-1307 USA
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///////////////////////////////// DESCRIPTION ////////////////////////////////
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// These macros and constants can be used across the whole codebase.
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// Unlike the values in user-settings.cgh, end users shouldn't modify these.
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/////////////////////////////// BEGIN INCLUDES ///////////////////////////////
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//#include "../user-settings.h"
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//#include "user-cgp-constants.h"
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///////////////////////// BEGIN USER-CGP-CONSTANTS /////////////////////////
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#ifndef _USER_CGP_CONSTANTS_H
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#define _USER_CGP_CONSTANTS_H
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// IMPORTANT:
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// These constants MUST be set appropriately for the settings in crt-royale.cgp
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// (or whatever related .cgp file you're using). If they aren't, you're likely
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// to get artifacts, the wrong phosphor mask size, etc. I wish these could be
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// set directly in the .cgp file to make things easier, but...they can't.
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// PASS SCALES AND RELATED CONSTANTS:
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// Copy the absolute scale_x for BLOOM_APPROX. There are two major versions of
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// this shader: One does a viewport-scale bloom, and the other skips it. The
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// latter benefits from a higher bloom_approx_scale_x, so save both separately:
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static const float bloom_approx_scale_x = 4.0 / 3.0;
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static const float max_viewport_size_x = 1080.0*1024.0*(4.0/3.0);
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static const float bloom_diff_thresh_ = 1.0/256.0;
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static const float bloom_approx_size_x = 320.0;
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static const float bloom_approx_size_x_for_fake = 400.0;
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// Copy the viewport-relative scales of the phosphor mask resize passes
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// (MASK_RESIZE and the pass immediately preceding it):
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static const float2 mask_resize_viewport_scale = float2(0.0625, 0.0625);
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// Copy the geom_max_aspect_ratio used to calculate the MASK_RESIZE scales, etc.:
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static const float geom_max_aspect_ratio = 4.0/3.0;
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// PHOSPHOR MASK TEXTURE CONSTANTS:
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// Set the following constants to reflect the properties of the phosphor mask
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// texture named in crt-royale.cgp. The shader optionally resizes a mask tile
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// based on user settings, then repeats a single tile until filling the screen.
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// The shader must know the input texture size (default 64x64), and to manually
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// resize, it must also know the horizontal triads per tile (default 8).
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static const float2 mask_texture_small_size = float2(64.0, 64.0);
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static const float2 mask_texture_large_size = float2(512.0, 512.0);
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static const float mask_triads_per_tile = 8.0;
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// We need the average brightness of the phosphor mask to compensate for the
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// dimming it causes. The following four values are roughly correct for the
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// masks included with the shader. Update the value for any LUT texture you
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// change. [Un]comment "#define PHOSPHOR_MASK_GRILLE14" depending on whether
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// the loaded aperture grille uses 14-pixel or 15-pixel stripes (default 15).
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// #ifndef PHOSPHOR_MASK_GRILLE14
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// #define PHOSPHOR_MASK_GRILLE14 0
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// #endif
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static const float mask_grille14_avg_color = 50.6666666/255.0;
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// TileableLinearApertureGrille14Wide7d33Spacing*.png
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// TileableLinearApertureGrille14Wide10And6Spacing*.png
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static const float mask_grille15_avg_color = 53.0/255.0;
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// TileableLinearApertureGrille15Wide6d33Spacing*.png
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// TileableLinearApertureGrille15Wide8And5d5Spacing*.png
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static const float mask_slot_avg_color = 46.0/255.0;
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// TileableLinearSlotMask15Wide9And4d5Horizontal8VerticalSpacing*.png
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// TileableLinearSlotMaskTall15Wide9And4d5Horizontal9d14VerticalSpacing*.png
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static const float mask_shadow_avg_color = 41.0/255.0;
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// TileableLinearShadowMask*.png
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// TileableLinearShadowMaskEDP*.png
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// #if PHOSPHOR_MASK_GRILLE14
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// static const float mask_grille_avg_color = mask_grille14_avg_color;
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// #else
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static const float mask_grille_avg_color = mask_grille15_avg_color;
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// #endif
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#endif // _USER_CGP_CONSTANTS_H
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////////////////////////// END USER-CGP-CONSTANTS //////////////////////////
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//////////////////////////////// END INCLUDES ////////////////////////////////
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/////////////////////////////// FIXED SETTINGS ///////////////////////////////
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#define _SIMULATE_CRT_ON_LCD 1
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#define _SIMULATE_GBA_ON_LCD 2
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#define _SIMULATE_LCD_ON_CRT 3
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#define _SIMULATE_GBA_ON_CRT 4
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// Ensure the first pass decodes CRT gamma and the last encodes LCD gamma.
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#define GAMMA_SIMULATION_MODE _SIMULATE_CRT_ON_LCD
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// Manually tiling a manually resized texture creates texture coord derivative
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// discontinuities and confuses anisotropic filtering, causing discolored tile
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// seams in the phosphor mask. Workarounds:
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// a.) Using tex2Dlod disables anisotropic filtering for tiled masks. It's
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// downgraded to tex2Dbias without _DRIVERS_ALLOW_TEX2DLOD #defined and
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// disabled without _DRIVERS_ALLOW_TEX2DBIAS #defined either.
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// b.) "Tile flat twice" requires drawing two full tiles without border padding
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// to the resized mask FBO, and it's incompatible with same-pass curvature.
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// (Same-pass curvature isn't used but could be in the future...maybe.)
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// c.) "Fix discontinuities" requires derivatives and drawing one tile with
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// border padding to the resized mask FBO, but it works with same-pass
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// curvature. It's disabled without _DRIVERS_ALLOW_DERIVATIVES #defined.
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// Precedence: a, then, b, then c (if multiple strategies are #defined).
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// #ifndef ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_TILING_COMPAT_TEX2DLOD 1 // 129.7 FPS, 4x, flat; 101.8 at fullscreen
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// #endif
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// #ifndef ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #define ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE 1 // 128.1 FPS, 4x, flat; 101.5 at fullscreen
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// #endif
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// #ifndef ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #define ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES 1 // 124.4 FPS, 4x, flat; 97.4 at fullscreen
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// #endif
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// Also, manually resampling the phosphor mask is slightly blurrier with
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// anisotropic filtering. (Resampling with mipmapping is even worse: It
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// creates artifacts, but only with the fully bloomed shader.) The difference
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// is subtle with small triads, but you can fix it for a small cost.
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// #ifndef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD 0
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// #endif
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////////////////////////////// DERIVED SETTINGS //////////////////////////////
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// Intel HD 4000 GPU's can't handle manual mask resizing (for now), setting the
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// geometry mode at runtime, or a 4x4 true Gaussian resize. Disable
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// incompatible settings ASAP. (_INTEGRATED_GRAPHICS_COMPATIBILITY_MODE may be
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// #defined by either user-settings.h or a wrapper .cg that #includes the
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// current .cg pass.)
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#if _INTEGRATED_GRAPHICS_COMPATIBILITY_MODE
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#if _PHOSPHOR_MASK_MANUALLY_RESIZE
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#undef _PHOSPHOR_MASK_MANUALLY_RESIZE
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#define _PHOSPHOR_MASK_MANUALLY_RESIZE 0
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#endif
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#if _RUNTIME_GEOMETRY_MODE
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#undef _RUNTIME_GEOMETRY_MODE
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#define _RUNTIME_GEOMETRY_MODE 0
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#endif
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// Mode 2 (4x4 Gaussian resize) won't work, and mode 1 (3x3 blur) is
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// inferior in most cases, so replace 2.0 with 0.0:
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static const float bloom_approx_filter = macro_cond(
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bloom_approx_filter_static > 1.5,
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0.0,
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bloom_approx_filter_static
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);
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#else
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static const float bloom_approx_filter = bloom_approx_filter_static;
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#endif
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// Disable slow runtime paths if static parameters are used. Most of these
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// won't be a problem anyway once the params are disabled, but some will.
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#if !_RUNTIME_SHADER_PARAMS_ENABLE
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#if _RUNTIME_PHOSPHOR_BLOOM_SIGMA
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#undef _RUNTIME_PHOSPHOR_BLOOM_SIGMA
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#define _RUNTIME_PHOSPHOR_BLOOM_SIGMA 0
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#endif
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#if _RUNTIME_ANTIALIAS_WEIGHTS
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#undef _RUNTIME_ANTIALIAS_WEIGHTS
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#define _RUNTIME_ANTIALIAS_WEIGHTS 0
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#endif
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#if _RUNTIME_ANTIALIAS_SUBPIXEL_OFFSETS
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#undef _RUNTIME_ANTIALIAS_SUBPIXEL_OFFSETS
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#define _RUNTIME_ANTIALIAS_SUBPIXEL_OFFSETS 0
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#endif
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#if _RUNTIME_SCANLINES_HORIZ_FILTER_COLORSPACE
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#undef _RUNTIME_SCANLINES_HORIZ_FILTER_COLORSPACE
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#define _RUNTIME_SCANLINES_HORIZ_FILTER_COLORSPACE 0
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#endif
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#if _RUNTIME_GEOMETRY_TILT
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#undef _RUNTIME_GEOMETRY_TILT
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#define _RUNTIME_GEOMETRY_TILT 0
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#endif
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#if _RUNTIME_GEOMETRY_MODE
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#undef _RUNTIME_GEOMETRY_MODE
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#define _RUNTIME_GEOMETRY_MODE 0
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#endif
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// #if FORCE_RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT
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// #undef FORCE_RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT
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// #define FORCE_RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT 0
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// #endif
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#endif
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// Make tex2Dbias a backup for tex2Dlod for wider compatibility.
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// #if ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #endif
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// #if ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_RESAMPLING_COMPAT_TEX2DBIAS
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// #endif
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// Rule out unavailable anisotropic compatibility strategies:
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#if !_DRIVERS_ALLOW_DERIVATIVES
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// #if ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #undef ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #define ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES 0
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// #endif
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#endif
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// #if !_DRIVERS_ALLOW_TEX2DLOD
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// #if ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #undef ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_TILING_COMPAT_TEX2DLOD 0
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// #endif
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// #if ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// #undef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD 0
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// #endif
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// #ifdef ANTIALIAS_DISABLE_ANISOTROPIC
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// #undef ANTIALIAS_DISABLE_ANISOTROPIC
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// #endif
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// #endif
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// #if !_DRIVERS_ALLOW_TEX2DBIAS
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// #ifdef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #undef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #endif
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// #ifdef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DBIAS
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// #undef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DBIAS
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// #endif
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// #endif
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// Prioritize anisotropic tiling compatibility strategies by performance and
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// disable unused strategies. This concentrates all the nesting in one place.
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// #if ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #ifdef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #undef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #endif
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// #if ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #undef ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #define ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE 0
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// #endif
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// #if ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #undef ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #define ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES 0
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// #endif
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// #else
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// #ifdef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #if ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #undef ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #define ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE 0
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// #endif
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// #if ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #undef ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #define ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES 0
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// #endif
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// #else
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// // ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE is only compatible with
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// // flat texture coords in the same pass, but that's all we use.
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// #if ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
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// #if ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #undef ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
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// #define ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES 0
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// #endif
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// #endif
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// #endif
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// #endif
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// The tex2Dlod and tex2Dbias strategies share a lot in common, and we can
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// reduce some #ifdef nesting in the next section by essentially OR'ing them:
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// #if ANISOTROPIC_TILING_COMPAT_TEX2DLOD
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// #define ANISOTROPIC_TILING_COMPAT_TEX2DLOD_FAMILY
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// #endif
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// #ifdef ANISOTROPIC_TILING_COMPAT_TEX2DBIAS
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// #define ANISOTROPIC_TILING_COMPAT_TEX2DLOD_FAMILY
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// #endif
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// Prioritize anisotropic resampling compatibility strategies the same way:
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// #if ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// #ifdef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DBIAS
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// #undef ANISOTROPIC_RESAMPLING_COMPAT_TEX2DBIAS
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// #endif
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// #endif
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/////////////////////// DERIVED PHOSPHOR MASK CONSTANTS //////////////////////
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// If we can use the large mipmapped LUT without mipmapping artifacts, we
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// should: It gives us more options for using fewer samples.
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// #if USE_LARGE_PHOSPHOR_MASK
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// #if ANISOTROPIC_RESAMPLING_COMPAT_TEX2DLOD
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// // TODO: Take advantage of this!
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// #define PHOSPHOR_MASK_RESIZE_MIPMAPPED_LUT
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// static const float2 mask_resize_src_lut_size = mask_texture_large_size;
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// #else
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static const float2 mask_resize_src_lut_size = mask_texture_large_size;
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// #endif
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// #else
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// static const float2 mask_resize_src_lut_size = mask_texture_small_size;
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// #endif
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static const float tile_aspect_inv = mask_resize_src_lut_size.y/mask_resize_src_lut_size.x;
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// tex2D's sampler2D parameter MUST be a uniform global, a uniform input to
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// main_fragment, or a static alias of one of the above. This makes it hard
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// to select the phosphor mask at runtime: We can't even assign to a uniform
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// global in the vertex shader or select a sampler2D in the vertex shader and
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// pass it to the fragment shader (even with explicit TEXUNIT# bindings),
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// because it just gives us the input texture or a black screen. However, we
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// can get around these limitations by calling tex2D three times with different
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// uniform samplers (or resizing the phosphor mask three times altogether).
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// With dynamic branches, we can process only one of these branches on top of
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// quickly discarding fragments we don't need (cgc seems able to overcome
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// limigations around dependent texture fetches inside of branches). Without
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|
// dynamic branches, we have to process every branch for every fragment...which
|
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|
// is slower. Runtime sampling mode selection is slower without dynamic
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||
|
// branches as well. Let the user's static #defines decide if it's worth it.
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||
|
#if _DRIVERS_ALLOW_DYNAMIC_BRANCHES
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||
|
#define _RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT
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||
|
// #else
|
||
|
// #if FORCE_RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT
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||
|
// #define _RUNTIME_PHOSPHOR_MASK_MODE_TYPE_SELECT
|
||
|
// #endif
|
||
|
#endif
|
||
|
|
||
|
// We need to render some minimum number of tiles in the resize passes.
|
||
|
// We need at least 1.0 just to repeat a single tile, and we need extra
|
||
|
// padding beyond that for anisotropic filtering, discontinuitity fixing,
|
||
|
// antialiasing, same-pass curvature (not currently used), etc. First
|
||
|
// determine how many border texels and tiles we need, based on how the result
|
||
|
// will be sampled:
|
||
|
#ifdef GEOMETRY_EARLY
|
||
|
static const float max_subpixel_offset = aa_subpixel_r_offset_static.x;
|
||
|
// Most antialiasing filters have a base radius of 4.0 pixels:
|
||
|
static const float max_aa_base_pixel_border = 4.0 +
|
||
|
max_subpixel_offset;
|
||
|
#else
|
||
|
static const float max_aa_base_pixel_border = 0.0;
|
||
|
#endif
|
||
|
// Anisotropic filtering adds about 0.5 to the pixel border:
|
||
|
// #ifndef ANISOTROPIC_TILING_COMPAT_TEX2DLOD_FAMILY
|
||
|
static const float max_aniso_pixel_border = max_aa_base_pixel_border + 0.5;
|
||
|
// #else
|
||
|
// static const float max_aniso_pixel_border = max_aa_base_pixel_border;
|
||
|
// #endif
|
||
|
// Fixing discontinuities adds 1.0 more to the pixel border:
|
||
|
// #if ANISOTROPIC_TILING_COMPAT_FIX_DISCONTINUITIES
|
||
|
// static const float max_tiled_pixel_border = max_aniso_pixel_border + 1.0;
|
||
|
// #else
|
||
|
static const float max_tiled_pixel_border = max_aniso_pixel_border;
|
||
|
// #endif
|
||
|
// Convert the pixel border to an integer texel border. Assume same-pass
|
||
|
// curvature about triples the texel frequency:
|
||
|
#ifdef GEOMETRY_EARLY
|
||
|
#define max_mask_texel_border macro_ceil(max_tiled_pixel_border * 3.0f)
|
||
|
#else
|
||
|
#define max_mask_texel_border macro_ceil(max_tiled_pixel_border)
|
||
|
#endif
|
||
|
// Convert the texel border to a tile border using worst-case assumptions:
|
||
|
static const float max_mask_tile_border = max_mask_texel_border/
|
||
|
(mask_min_allowed_triad_size * mask_triads_per_tile);
|
||
|
|
||
|
// Finally, set the number of resized tiles to render to MASK_RESIZE, and set
|
||
|
// the starting texel (inside borders) for sampling it.
|
||
|
#ifndef GEOMETRY_EARLY
|
||
|
// #if ANISOTROPIC_TILING_COMPAT_TILE_FLAT_TWICE
|
||
|
// Special case: Render two tiles without borders. Anisotropic
|
||
|
// filtering doesn't seem to be a problem here.
|
||
|
// static const float mask_resize_num_tiles = 1.0 + 1.0;
|
||
|
// static const float mask_start_texels = 0.0;
|
||
|
// #else
|
||
|
static const float mask_resize_num_tiles = 1.0 + 2.0 * max_mask_tile_border;
|
||
|
static const float mask_start_texels = max_mask_texel_border;
|
||
|
// #endif
|
||
|
#else
|
||
|
static const float mask_resize_num_tiles = 1.0 + 2.0*max_mask_tile_border;
|
||
|
static const float mask_start_texels = max_mask_texel_border;
|
||
|
#endif
|
||
|
|
||
|
// We have to fit mask_resize_num_tiles into an FBO with a viewport scale of
|
||
|
// mask_resize_viewport_scale. This limits the maximum final triad size.
|
||
|
// Estimate the minimum number of triads we can split the screen into in each
|
||
|
// dimension (we'll be as correct as mask_resize_viewport_scale is):
|
||
|
static const float mask_resize_num_triads = mask_resize_num_tiles * mask_triads_per_tile;
|
||
|
static const float2 min_allowed_viewport_triads =
|
||
|
float2(mask_resize_num_triads, mask_resize_num_triads) / mask_resize_viewport_scale;
|
||
|
|
||
|
|
||
|
|
||
|
#endif // _DERIVED_SETTINGS_AND_CONSTANTS_H
|