gzdoom-gles/tools/drawergen/fixedfunction/drawspancodegen.cpp

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/*
** DrawSpan code generation
** Copyright (c) 2016 Magnus Norddahl
**
** This software is provided 'as-is', without any express or implied
** warranty. In no event will the authors be held liable for any damages
** arising from the use of this software.
**
** Permission is granted to anyone to use this software for any purpose,
** including commercial applications, and to alter it and redistribute it
** freely, subject to the following restrictions:
**
** 1. The origin of this software must not be misrepresented; you must not
** claim that you wrote the original software. If you use this software
** in a product, an acknowledgment in the product documentation would be
** appreciated but is not required.
** 2. Altered source versions must be plainly marked as such, and must not be
** misrepresented as being the original software.
** 3. This notice may not be removed or altered from any source distribution.
**
*/
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#include "precomp.h"
#include "timestamp.h"
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#include "fixedfunction/drawspancodegen.h"
#include "ssa/ssa_function.h"
#include "ssa/ssa_scope.h"
#include "ssa/ssa_for_block.h"
#include "ssa/ssa_if_block.h"
#include "ssa/ssa_stack.h"
#include "ssa/ssa_function.h"
#include "ssa/ssa_struct_type.h"
#include "ssa/ssa_value.h"
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void DrawSpanCodegen::Generate(DrawSpanVariant variant, SSAValue args)
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{
destorg = args[0][0].load(true);
source = args[0][1].load(true);
destpitch = args[0][2].load(true);
stack_xfrac.store(args[0][3].load(true));
stack_yfrac.store(args[0][4].load(true));
xstep = args[0][5].load(true);
ystep = args[0][6].load(true);
x1 = args[0][7].load(true);
x2 = args[0][8].load(true);
y = args[0][9].load(true);
xbits = args[0][10].load(true);
ybits = args[0][11].load(true);
light = args[0][12].load(true);
srcalpha = args[0][13].load(true);
destalpha = args[0][14].load(true);
SSAShort light_alpha = args[0][15].load(true);
SSAShort light_red = args[0][16].load(true);
SSAShort light_green = args[0][17].load(true);
SSAShort light_blue = args[0][18].load(true);
SSAShort fade_alpha = args[0][19].load(true);
SSAShort fade_red = args[0][20].load(true);
SSAShort fade_green = args[0][21].load(true);
SSAShort fade_blue = args[0][22].load(true);
SSAShort desaturate = args[0][23].load(true);
SSAInt flags = args[0][24].load(true);
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start_viewpos_x = args[0][25].load(true);
step_viewpos_x = args[0][26].load(true);
dynlights = args[0][27].load(true);
num_dynlights = args[0][28].load(true);
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shade_constants.light = SSAVec4i(light_blue.zext_int(), light_green.zext_int(), light_red.zext_int(), light_alpha.zext_int());
shade_constants.fade = SSAVec4i(fade_blue.zext_int(), fade_green.zext_int(), fade_red.zext_int(), fade_alpha.zext_int());
shade_constants.desaturate = desaturate.zext_int();
count = x2 - x1 + 1;
data = destorg[(x1 + y * destpitch) * 4];
yshift = 32 - ybits;
xshift = yshift - xbits;
xmask = ((SSAInt(1) << xbits) - 1) << ybits;
// 64x64 is the most common case by far, so special case it.
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is_64x64 = xbits == SSAInt(6) && ybits == SSAInt(6);
is_simple_shade = (flags & DrawSpanArgs::simple_shade) == SSAInt(DrawSpanArgs::simple_shade);
is_nearest_filter = (flags & DrawSpanArgs::nearest_filter) == SSAInt(DrawSpanArgs::nearest_filter);
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SSAIfBlock branch;
branch.if_block(is_simple_shade);
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LoopShade(variant, true);
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branch.else_block();
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LoopShade(variant, false);
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branch.end_block();
}
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void DrawSpanCodegen::LoopShade(DrawSpanVariant variant, bool isSimpleShade)
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{
SSAIfBlock branch;
branch.if_block(is_nearest_filter);
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LoopFilter(variant, isSimpleShade, true);
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branch.else_block();
stack_xfrac.store(stack_xfrac.load() - (SSAInt(1) << (31 - xbits)));
stack_yfrac.store(stack_yfrac.load() - (SSAInt(1) << (31 - ybits)));
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LoopFilter(variant, isSimpleShade, false);
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branch.end_block();
}
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void DrawSpanCodegen::LoopFilter(DrawSpanVariant variant, bool isSimpleShade, bool isNearestFilter)
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{
SSAIfBlock branch;
branch.if_block(is_64x64);
{
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SSAInt sseLength = Loop4x(variant, isSimpleShade, isNearestFilter, true);
Loop(sseLength * 4, variant, isSimpleShade, isNearestFilter, true);
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}
branch.else_block();
{
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SSAInt sseLength = Loop4x(variant, isSimpleShade, isNearestFilter, false);
Loop(sseLength * 4, variant, isSimpleShade, isNearestFilter, false);
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}
branch.end_block();
}
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SSAInt DrawSpanCodegen::Loop4x(DrawSpanVariant variant, bool isSimpleShade, bool isNearestFilter, bool is64x64)
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{
SSAInt sseLength = count / 4;
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stack_index.store(SSAInt(0));
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stack_viewpos_x.store(start_viewpos_x);
{
SSAForBlock loop;
SSAInt index = stack_index.load();
loop.loop_block(index < sseLength);
SSAVec16ub bg = data[index * 16].load_unaligned_vec16ub(false);
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SSAVec8s bg0 = SSAVec8s::extendlo(bg);
SSAVec8s bg1 = SSAVec8s::extendhi(bg);
SSAVec4i bgcolors[4] =
{
SSAVec4i::extendlo(bg0),
SSAVec4i::extendhi(bg0),
SSAVec4i::extendlo(bg1),
SSAVec4i::extendhi(bg1)
};
SSAVec4i colors[4];
for (int i = 0; i < 4; i++)
{
SSAInt xfrac = stack_xfrac.load();
SSAInt yfrac = stack_yfrac.load();
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viewpos_x = stack_viewpos_x.load();
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colors[i] = Blend(Shade(Sample(xfrac, yfrac, isNearestFilter, is64x64), isSimpleShade), bgcolors[i], variant);
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stack_viewpos_x.store(viewpos_x + step_viewpos_x);
stack_xfrac.store(xfrac + xstep);
stack_yfrac.store(yfrac + ystep);
}
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SSAVec16ub color(SSAVec8s(colors[0], colors[1]), SSAVec8s(colors[2], colors[3]));
data[index * 16].store_unaligned_vec16ub(color);
stack_index.store(index.add(SSAInt(1), true, true));
loop.end_block();
}
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return sseLength;
}
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void DrawSpanCodegen::Loop(SSAInt start, DrawSpanVariant variant, bool isSimpleShade, bool isNearestFilter, bool is64x64)
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{
stack_index.store(start);
{
SSAForBlock loop;
SSAInt index = stack_index.load();
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viewpos_x = stack_viewpos_x.load();
loop.loop_block(index < count);
SSAInt xfrac = stack_xfrac.load();
SSAInt yfrac = stack_yfrac.load();
SSAVec4i bgcolor = data[index * 4].load_vec4ub(false);
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SSAVec4i color = Blend(Shade(Sample(xfrac, yfrac, isNearestFilter, is64x64), isSimpleShade), bgcolor, variant);
data[index * 4].store_vec4ub(color);
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stack_viewpos_x.store(viewpos_x + step_viewpos_x);
stack_index.store(index.add(SSAInt(1), true, true));
stack_xfrac.store(xfrac + xstep);
stack_yfrac.store(yfrac + ystep);
loop.end_block();
}
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}
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SSAVec4i DrawSpanCodegen::Sample(SSAInt xfrac, SSAInt yfrac, bool isNearestFilter, bool is64x64)
{
if (isNearestFilter)
{
SSAInt spot;
if (is64x64)
spot = ((xfrac >> (32 - 6 - 6))&(63 * 64)) + (yfrac >> (32 - 6));
else
spot = ((xfrac >> xshift) & xmask) + (yfrac >> yshift);
return source[spot * 4].load_vec4ub(true);
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}
else
{
if (is64x64)
{
return SampleLinear(source, xfrac, yfrac, SSAInt(26), SSAInt(26));
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}
else
{
return SampleLinear(source, xfrac, yfrac, 32 - xbits, 32 - ybits);
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}
}
}
SSAVec4i DrawSpanCodegen::SampleLinear(SSAUBytePtr texture, SSAInt xfrac, SSAInt yfrac, SSAInt xbits, SSAInt ybits)
{
SSAInt xshift = (32 - xbits);
SSAInt yshift = (32 - ybits);
SSAInt xmask = (SSAInt(1) << xshift) - 1;
SSAInt ymask = (SSAInt(1) << yshift) - 1;
SSAInt x = xfrac >> xbits;
SSAInt y = yfrac >> ybits;
SSAVec4i p00 = texture[((y & ymask) + ((x & xmask) << yshift)) * 4].load_vec4ub(true);
SSAVec4i p01 = texture[(((y + 1) & ymask) + ((x & xmask) << yshift)) * 4].load_vec4ub(true);
SSAVec4i p10 = texture[((y & ymask) + (((x + 1) & xmask) << yshift)) * 4].load_vec4ub(true);
SSAVec4i p11 = texture[(((y + 1) & ymask) + (((x + 1) & xmask) << yshift)) * 4].load_vec4ub(true);
SSAInt inv_b = (xfrac >> (xbits - 4)) & 15;
SSAInt inv_a = (yfrac >> (ybits - 4)) & 15;
SSAInt a = 16 - inv_a;
SSAInt b = 16 - inv_b;
return (p00 * (a * b) + p01 * (inv_a * b) + p10 * (a * inv_b) + p11 * (inv_a * inv_b) + 127) >> 8;
}
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SSAVec4i DrawSpanCodegen::Shade(SSAVec4i fg, bool isSimpleShade)
{
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SSAVec4i c;
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if (isSimpleShade)
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c = shade_bgra_simple(fg, light);
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else
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c = shade_bgra_advanced(fg, light, shade_constants);
stack_lit_color.store(c);
stack_light_index.store(SSAInt(0));
SSAForBlock block;
SSAInt light_index = stack_light_index.load();
SSAVec4i lit_color = stack_lit_color.load();
block.loop_block(light_index < num_dynlights);
{
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SSAVec4i light_color = SSAUBytePtr(SSAValue(dynlights[light_index][0]).v).load_vec4ub(true);
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SSAFloat light_x = dynlights[light_index][1].load(true);
SSAFloat light_y = dynlights[light_index][2].load(true);
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SSAFloat light_z = dynlights[light_index][3].load(true);
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SSAFloat light_rcp_radius = dynlights[light_index][4].load(true);
// L = light-pos
// dist = sqrt(dot(L, L))
// attenuation = 1 - MIN(dist * (1/radius), 1)
SSAFloat Lyz2 = light_y; // L.y*L.y + L.z*L.z
SSAFloat Lx = light_x - viewpos_x;
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SSAFloat dist2 = Lyz2 + Lx * Lx;
SSAFloat rcp_dist = SSAFloat::rsqrt(dist2);
SSAFloat dist = dist2 * rcp_dist;
SSAFloat distance_attenuation = SSAFloat(256.0f) - SSAFloat::MIN(dist * light_rcp_radius, SSAFloat(256.0f));
// The simple light type
SSAFloat simple_attenuation = distance_attenuation;
// The point light type
// diffuse = dot(N,L) * attenuation
SSAFloat point_attenuation = light_z * rcp_dist * distance_attenuation;
SSAInt attenuation = SSAInt((light_z == SSAFloat(0.0f)).select(simple_attenuation, point_attenuation), true);
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SSAVec4i contribution = (light_color * fg * attenuation) >> 16;
stack_lit_color.store(lit_color + contribution);
stack_light_index.store(light_index + 1);
}
block.end_block();
return stack_lit_color.load();
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}
SSAVec4i DrawSpanCodegen::Blend(SSAVec4i fg, SSAVec4i bg, DrawSpanVariant variant)
{
switch (variant)
{
default:
case DrawSpanVariant::Opaque:
return blend_copy(fg);
case DrawSpanVariant::Masked:
return blend_alpha_blend(fg, bg);
case DrawSpanVariant::Translucent:
case DrawSpanVariant::AddClamp:
return blend_add(fg, bg, srcalpha, destalpha);
case DrawSpanVariant::MaskedTranslucent:
case DrawSpanVariant::MaskedAddClamp:
return blend_add(fg, bg, srcalpha, calc_blend_bgalpha(fg, destalpha));
}
}