mirror of
https://github.com/id-Software/DOOM-3-BFG.git
synced 2024-11-21 20:01:13 +00:00
521 lines
13 KiB
C++
521 lines
13 KiB
C++
/*
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===========================================================================
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Doom 3 BFG Edition GPL Source Code
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Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
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This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
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Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#pragma hdrstop
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#include "../idlib/precompiled.h"
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#include "tr_local.h"
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#include "Model_local.h"
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#define LIQUID_MAX_SKIP_FRAMES 5
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#define LIQUID_MAX_TYPES 3
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/*
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====================
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idRenderModelLiquid::idRenderModelLiquid
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====================
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*/
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idRenderModelLiquid::idRenderModelLiquid() {
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verts_x = 32;
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verts_y = 32;
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scale_x = 256.0f;
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scale_y = 256.0f;
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liquid_type = 0;
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density = 0.97f;
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drop_height = 4;
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drop_radius = 4;
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drop_delay = 1000;
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shader = declManager->FindMaterial( NULL );
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update_tics = 33; // ~30 hz
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time = 0;
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seed = 0;
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random.SetSeed( 0 );
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}
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/*
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====================
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idRenderModelLiquid::GenerateSurface
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====================
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*/
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modelSurface_t idRenderModelLiquid::GenerateSurface( float lerp ) {
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srfTriangles_t *tri;
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int i, base;
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idDrawVert *vert;
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modelSurface_t surf;
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float inv_lerp;
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inv_lerp = 1.0f - lerp;
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vert = verts.Ptr();
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for( i = 0; i < verts.Num(); i++, vert++ ) {
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vert->xyz.z = page1[ i ] * lerp + page2[ i ] * inv_lerp;
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}
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tr.pc.c_deformedSurfaces++;
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tr.pc.c_deformedVerts += deformInfo->numOutputVerts;
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tr.pc.c_deformedIndexes += deformInfo->numIndexes;
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tri = R_AllocStaticTriSurf();
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// note that some of the data is references, and should not be freed
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tri->referencedIndexes = true;
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tri->numIndexes = deformInfo->numIndexes;
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tri->indexes = deformInfo->indexes;
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tri->silIndexes = deformInfo->silIndexes;
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tri->numMirroredVerts = deformInfo->numMirroredVerts;
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tri->mirroredVerts = deformInfo->mirroredVerts;
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tri->numDupVerts = deformInfo->numDupVerts;
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tri->dupVerts = deformInfo->dupVerts;
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tri->numSilEdges = deformInfo->numSilEdges;
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tri->silEdges = deformInfo->silEdges;
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tri->numVerts = deformInfo->numOutputVerts;
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R_AllocStaticTriSurfVerts( tri, tri->numVerts );
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SIMDProcessor->Memcpy( tri->verts, verts.Ptr(), deformInfo->numSourceVerts * sizeof(tri->verts[0]) );
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// replicate the mirror seam vertexes
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base = deformInfo->numOutputVerts - deformInfo->numMirroredVerts;
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for ( i = 0 ; i < deformInfo->numMirroredVerts ; i++ ) {
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tri->verts[base + i] = tri->verts[deformInfo->mirroredVerts[i]];
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}
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R_BoundTriSurf( tri );
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surf.geometry = tri;
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surf.shader = shader;
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return surf;
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}
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/*
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====================
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idRenderModelLiquid::WaterDrop
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====================
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*/
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void idRenderModelLiquid::WaterDrop( int x, int y, float *page ) {
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int cx, cy;
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int left,top,right,bottom;
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int square;
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int radsquare = drop_radius * drop_radius;
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float invlength = 1.0f / ( float )radsquare;
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float dist;
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if ( x < 0 ) {
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x = 1 + drop_radius + random.RandomInt( verts_x - 2 * drop_radius - 1 );
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}
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if ( y < 0 ) {
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y = 1 + drop_radius + random.RandomInt( verts_y - 2 * drop_radius - 1 );
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}
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left=-drop_radius; right = drop_radius;
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top=-drop_radius; bottom = drop_radius;
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// Perform edge clipping...
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if ( x - drop_radius < 1 ) {
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left -= (x-drop_radius-1);
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}
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if ( y - drop_radius < 1 ) {
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top -= (y-drop_radius-1);
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}
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if ( x + drop_radius > verts_x - 1 ) {
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right -= (x+drop_radius-verts_x+1);
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}
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if ( y + drop_radius > verts_y - 1 ) {
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bottom-= (y+drop_radius-verts_y+1);
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}
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for ( cy = top; cy < bottom; cy++ ) {
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for ( cx = left; cx < right; cx++ ) {
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square = cy*cy + cx*cx;
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if ( square < radsquare ) {
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dist = idMath::Sqrt( (float)square * invlength );
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page[verts_x*(cy+y) + cx+x] += idMath::Cos16( dist * idMath::PI * 0.5f ) * drop_height;
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}
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}
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}
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}
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/*
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====================
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idRenderModelLiquid::IntersectBounds
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====================
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*/
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void idRenderModelLiquid::IntersectBounds( const idBounds &bounds, float displacement ) {
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int cx, cy;
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int left,top,right,bottom;
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float up, down;
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float *pos;
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left = ( int )( bounds[ 0 ].x / scale_x );
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right = ( int )( bounds[ 1 ].x / scale_x );
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top = ( int )( bounds[ 0 ].y / scale_y );
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bottom = ( int )( bounds[ 1 ].y / scale_y );
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down = bounds[ 0 ].z;
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up = bounds[ 1 ].z;
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if ( ( right < 1 ) || ( left >= verts_x ) || ( bottom < 1 ) || ( top >= verts_x ) ) {
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return;
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}
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// Perform edge clipping...
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if ( left < 1 ) {
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left = 1;
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}
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if ( right >= verts_x ) {
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right = verts_x - 1;
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}
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if ( top < 1 ) {
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top = 1;
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}
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if ( bottom >= verts_y ) {
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bottom = verts_y - 1;
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}
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for ( cy = top; cy < bottom; cy++ ) {
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for ( cx = left; cx < right; cx++ ) {
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pos = &page1[ verts_x * cy + cx ];
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if ( *pos > down ) {//&& ( *pos < up ) ) {
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*pos = down;
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}
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}
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}
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}
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/*
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====================
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idRenderModelLiquid::Update
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====================
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*/
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void idRenderModelLiquid::Update() {
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int x, y;
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float *p2;
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float *p1;
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float value;
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time += update_tics;
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SwapValues( page1, page2 );
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if ( time > nextDropTime ) {
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WaterDrop( -1, -1, page2 );
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nextDropTime = time + drop_delay;
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} else if ( time < nextDropTime - drop_delay ) {
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nextDropTime = time + drop_delay;
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}
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p1 = page1;
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p2 = page2;
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switch( liquid_type ) {
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case 0 :
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for ( y = 1; y < verts_y - 1; y++ ) {
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p2 += verts_x;
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p1 += verts_x;
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for ( x = 1; x < verts_x - 1; x++ ) {
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value =
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( p2[ x + verts_x ] +
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p2[ x - verts_x ] +
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p2[ x + 1 ] +
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p2[ x - 1 ] +
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p2[ x - verts_x - 1 ] +
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p2[ x - verts_x + 1 ] +
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p2[ x + verts_x - 1 ] +
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p2[ x + verts_x + 1 ] +
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p2[ x ] ) * ( 2.0f / 9.0f ) -
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p1[ x ];
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p1[ x ] = value * density;
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}
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}
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break;
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case 1 :
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for ( y = 1; y < verts_y - 1; y++ ) {
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p2 += verts_x;
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p1 += verts_x;
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for ( x = 1; x < verts_x - 1; x++ ) {
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value =
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( p2[ x + verts_x ] +
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p2[ x - verts_x ] +
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p2[ x + 1 ] +
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p2[ x - 1 ] +
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p2[ x - verts_x - 1 ] +
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p2[ x - verts_x + 1 ] +
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p2[ x + verts_x - 1 ] +
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p2[ x + verts_x + 1 ] ) * 0.25f -
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p1[ x ];
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p1[ x ] = value * density;
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}
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}
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break;
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case 2 :
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for ( y = 1; y < verts_y - 1; y++ ) {
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p2 += verts_x;
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p1 += verts_x;
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for ( x = 1; x < verts_x - 1; x++ ) {
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value =
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( p2[ x + verts_x ] +
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p2[ x - verts_x ] +
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p2[ x + 1 ] +
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p2[ x - 1 ] +
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p2[ x - verts_x - 1 ] +
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p2[ x - verts_x + 1 ] +
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p2[ x + verts_x - 1 ] +
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p2[ x + verts_x + 1 ] +
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p2[ x ] ) * ( 1.0f / 9.0f );
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p1[ x ] = value * density;
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}
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}
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break;
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}
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}
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/*
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====================
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idRenderModelLiquid::Reset
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====================
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*/
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void idRenderModelLiquid::Reset() {
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int i, x, y;
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if ( pages.Num() < 2 * verts_x * verts_y ) {
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return;
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}
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nextDropTime = 0;
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time = 0;
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random.SetSeed( seed );
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page1 = pages.Ptr();
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page2 = page1 + verts_x * verts_y;
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for ( i = 0, y = 0; y < verts_y; y++ ) {
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for ( x = 0; x < verts_x; x++, i++ ) {
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page1[ i ] = 0.0f;
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page2[ i ] = 0.0f;
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verts[ i ].xyz.z = 0.0f;
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}
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}
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}
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/*
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====================
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idRenderModelLiquid::InitFromFile
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====================
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*/
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void idRenderModelLiquid::InitFromFile( const char *fileName ) {
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int i, x, y;
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idToken token;
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idParser parser( LEXFL_ALLOWPATHNAMES | LEXFL_NOSTRINGESCAPECHARS );
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idList<int> tris;
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float size_x, size_y;
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float rate;
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name = fileName;
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if ( !parser.LoadFile( fileName ) ) {
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MakeDefaultModel();
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return;
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}
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size_x = scale_x * verts_x;
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size_y = scale_y * verts_y;
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while( parser.ReadToken( &token ) ) {
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if ( !token.Icmp( "seed" ) ) {
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seed = parser.ParseInt();
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} else if ( !token.Icmp( "size_x" ) ) {
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size_x = parser.ParseFloat();
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} else if ( !token.Icmp( "size_y" ) ) {
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size_y = parser.ParseFloat();
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} else if ( !token.Icmp( "verts_x" ) ) {
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verts_x = parser.ParseFloat();
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if ( verts_x < 2 ) {
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parser.Warning( "Invalid # of verts. Using default model." );
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MakeDefaultModel();
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return;
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}
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} else if ( !token.Icmp( "verts_y" ) ) {
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verts_y = parser.ParseFloat();
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if ( verts_y < 2 ) {
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parser.Warning( "Invalid # of verts. Using default model." );
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MakeDefaultModel();
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return;
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}
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} else if ( !token.Icmp( "liquid_type" ) ) {
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liquid_type = parser.ParseInt() - 1;
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if ( ( liquid_type < 0 ) || ( liquid_type >= LIQUID_MAX_TYPES ) ) {
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parser.Warning( "Invalid liquid_type. Using default model." );
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MakeDefaultModel();
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return;
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}
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} else if ( !token.Icmp( "density" ) ) {
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density = parser.ParseFloat();
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} else if ( !token.Icmp( "drop_height" ) ) {
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drop_height = parser.ParseFloat();
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} else if ( !token.Icmp( "drop_radius" ) ) {
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drop_radius = parser.ParseInt();
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} else if ( !token.Icmp( "drop_delay" ) ) {
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drop_delay = SEC2MS( parser.ParseFloat() );
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} else if ( !token.Icmp( "shader" ) ) {
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parser.ReadToken( &token );
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shader = declManager->FindMaterial( token );
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} else if ( !token.Icmp( "update_rate" ) ) {
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rate = parser.ParseFloat();
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if ( ( rate <= 0.0f ) || ( rate > 60.0f ) ) {
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parser.Warning( "Invalid update_rate. Must be between 0 and 60. Using default model." );
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MakeDefaultModel();
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return;
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}
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update_tics = 1000 / rate;
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} else {
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parser.Warning( "Unknown parameter '%s'. Using default model.", token.c_str() );
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MakeDefaultModel();
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return;
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}
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}
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scale_x = size_x / ( verts_x - 1 );
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scale_y = size_y / ( verts_y - 1 );
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pages.SetNum( 2 * verts_x * verts_y );
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page1 = pages.Ptr();
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page2 = page1 + verts_x * verts_y;
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verts.SetNum( verts_x * verts_y );
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for ( i = 0, y = 0; y < verts_y; y++ ) {
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for ( x = 0; x < verts_x; x++, i++ ) {
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page1[ i ] = 0.0f;
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page2[ i ] = 0.0f;
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verts[ i ].Clear();
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verts[ i ].xyz.Set( x * scale_x, y * scale_y, 0.0f );
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verts[ i ].SetTexCoord( (float) x / (float)( verts_x - 1 ), (float) -y / (float)( verts_y - 1 ) );
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}
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}
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tris.SetNum( ( verts_x - 1 ) * ( verts_y - 1 ) * 6 );
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for( i = 0, y = 0; y < verts_y - 1; y++ ) {
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for( x = 1; x < verts_x; x++, i += 6 ) {
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tris[ i + 0 ] = y * verts_x + x;
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tris[ i + 1 ] = y * verts_x + x - 1;
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tris[ i + 2 ] = ( y + 1 ) * verts_x + x - 1;
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tris[ i + 3 ] = ( y + 1 ) * verts_x + x - 1;
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tris[ i + 4 ] = ( y + 1 ) * verts_x + x;
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tris[ i + 5 ] = y * verts_x + x;
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}
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}
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// build the information that will be common to all animations of this mesh:
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// sil edge connectivity and normal / tangent generation information
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deformInfo = R_BuildDeformInfo( verts.Num(), verts.Ptr(), tris.Num(), tris.Ptr(), true );
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bounds.Clear();
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bounds.AddPoint( idVec3( 0.0f, 0.0f, drop_height * -10.0f ) );
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bounds.AddPoint( idVec3( ( verts_x - 1 ) * scale_x, ( verts_y - 1 ) * scale_y, drop_height * 10.0f ) );
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// set the timestamp for reloadmodels
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fileSystem->ReadFile( name, NULL, &timeStamp );
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Reset();
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}
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/*
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====================
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idRenderModelLiquid::InstantiateDynamicModel
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====================
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*/
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idRenderModel *idRenderModelLiquid::InstantiateDynamicModel( const struct renderEntity_s *ent, const viewDef_t *view, idRenderModel *cachedModel ) {
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idRenderModelStatic *staticModel;
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int frames;
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int t;
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float lerp;
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if ( cachedModel ) {
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delete cachedModel;
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cachedModel = NULL;
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}
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if ( !deformInfo ) {
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return NULL;
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}
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if ( !view ) {
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t = 0;
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} else {
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t = view->renderView.time[0];
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}
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// update the liquid model
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frames = ( t - time ) / update_tics;
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if ( frames > LIQUID_MAX_SKIP_FRAMES ) {
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// don't let time accumalate when skipping frames
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time += update_tics * ( frames - LIQUID_MAX_SKIP_FRAMES );
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frames = LIQUID_MAX_SKIP_FRAMES;
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}
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while( frames > 0 ) {
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Update();
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frames--;
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}
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// create the surface
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lerp = ( float )( t - time ) / ( float )update_tics;
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modelSurface_t surf = GenerateSurface( lerp );
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staticModel = new (TAG_MODEL) idRenderModelStatic;
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staticModel->AddSurface( surf );
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staticModel->bounds = surf.geometry->bounds;
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return staticModel;
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}
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/*
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====================
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idRenderModelLiquid::IsDynamicModel
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====================
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*/
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dynamicModel_t idRenderModelLiquid::IsDynamicModel() const {
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return DM_CONTINUOUS;
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}
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/*
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====================
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idRenderModelLiquid::Bounds
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====================
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*/
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idBounds idRenderModelLiquid::Bounds(const struct renderEntity_s *ent) const {
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// FIXME: need to do this better
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return bounds;
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}
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