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fteqw/engine/gl/gl_hlmdl.c

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#include "quakedef.h"
#ifdef HALFLIFEMODELS
#include "glquake.h"
/*
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Half-Life Model Renderer (Experimental) Copyright (C) 2001 James 'Ender' Brown [ender@quakesrc.org] This program is
free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied
warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
details. You should have received a copy of the GNU General Public License along with this program; if not, write
to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. fromquake.h -
render.c - apart from calculations (mostly range checking or value conversion code is a mix of standard Quake 1
meshing, and vertex deforms. The rendering loop uses standard Quake 1 drawing, after SetupBones deforms the vertex.
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Also, please note that it won't do all hl models....
Nor will it work 100%
*/
#include "model_hl.h"
void QuaternionGLMatrix(float x, float y, float z, float w, vec4_t *GLM)
{
GLM[0][0] = 1 - 2 * y * y - 2 * z * z;
GLM[1][0] = 2 * x * y + 2 * w * z;
GLM[2][0] = 2 * x * z - 2 * w * y;
GLM[0][1] = 2 * x * y - 2 * w * z;
GLM[1][1] = 1 - 2 * x * x - 2 * z * z;
GLM[2][1] = 2 * y * z + 2 * w * x;
GLM[0][2] = 2 * x * z + 2 * w * y;
GLM[1][2] = 2 * y * z - 2 * w * x;
GLM[2][2] = 1 - 2 * x * x - 2 * y * y;
}
/*
=======================================================================================================================
QuaternionGLAngle - Convert a GL angle to a quaternion matrix
=======================================================================================================================
*/
void QuaternionGLAngle(const vec3_t angles, vec4_t quaternion)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
float yaw = angles[2] * 0.5;
float pitch = angles[1] * 0.5;
float roll = angles[0] * 0.5;
float siny = sin(yaw);
float cosy = cos(yaw);
float sinp = sin(pitch);
float cosp = cos(pitch);
float sinr = sin(roll);
float cosr = cos(roll);
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
quaternion[0] = sinr * cosp * cosy - cosr * sinp * siny;
quaternion[1] = cosr * sinp * cosy + sinr * cosp * siny;
quaternion[2] = cosr * cosp * siny - sinr * sinp * cosy;
quaternion[3] = cosr * cosp * cosy + sinr * sinp * siny;
}
matrix3x4 transform_matrix[MAX_BONES]; /* Vertex transformation matrix */
void GL_Draw_HL_AliasFrame(short *order, vec3_t *transformed, float tex_w, float tex_h);
/*
=======================================================================================================================
Mod_LoadHLModel - read in the model's constituent parts
=======================================================================================================================
*/
extern char loadname[];
qboolean Mod_LoadHLModel (model_t *mod, void *buffer)
{
/*~~*/
int i;
hlmodelcache_t *model;
hlmdl_header_t *header;
hlmdl_header_t *texheader;
hlmdl_tex_t *tex;
hlmdl_bone_t *bones;
hlmdl_bonecontroller_t *bonectls;
texid_t *texnums;
int start, end, total;
/*~~*/
//checksum the model
if (mod->engineflags & MDLF_DOCRC)
{
unsigned short crc;
qbyte *p;
int len;
char st[40];
QCRC_Init(&crc);
for (len = com_filesize, p = buffer; len; len--, p++)
QCRC_ProcessByte(&crc, *p);
sprintf(st, "%d", (int) crc);
Info_SetValueForKey (cls.userinfo[0],
(mod->engineflags & MDLF_PLAYER) ? pmodel_name : emodel_name,
st, sizeof(cls.userinfo[0]));
if (cls.state >= ca_connected)
{
CL_SendClientCommand(true, "setinfo %s %d",
(mod->engineflags & MDLF_PLAYER) ? pmodel_name : emodel_name,
(int)crc);
}
}
start = Hunk_LowMark ();
//load the model into hunk
model = Hunk_Alloc(sizeof(hlmodelcache_t));
header = Hunk_Alloc(com_filesize);
memcpy(header, buffer, com_filesize);
#if defined(HLSERVER) && (defined(__powerpc__) || defined(__ppc__))
//this is to let bigfoot know when he comes to port it all... And I'm lazy.
#ifdef warningmsg
#pragma warningmsg("-----------------------------------------")
#pragma warningmsg("FIXME: No byteswapping on halflife models")
#pragma warningmsg("-----------------------------------------")
#endif
#endif
if (header->version != 10)
{
Con_Printf(CON_ERROR "Cannot load model %s - unknown version %i\n", mod->name, header->version);
Hunk_FreeToLowMark(start);
return false;
}
if (header->numcontrollers > MAX_BONE_CONTROLLERS)
{
Con_Printf(CON_ERROR "Cannot load model %s - too many controllers %i\n", mod->name, header->numcontrollers);
Hunk_FreeToLowMark(start);
return false;
}
if (header->numbones > MAX_BONES)
{
Con_Printf(CON_ERROR "Cannot load model %s - too many bones %i\n", mod->name, header->numbones);
Hunk_FreeToLowMark(start);
return false;
}
texheader = NULL;
if (!header->numtextures)
{
char texmodelname[MAX_QPATH];
COM_StripExtension(mod->name, texmodelname, sizeof(texmodelname));
//no textures? eesh. They must be stored externally.
texheader = (hlmdl_header_t*)COM_LoadHunkFile(va("%st.mdl", texmodelname));
if (texheader)
{
if (texheader->version != 10)
texheader = NULL;
}
}
if (!texheader)
texheader = header;
else
header->numtextures = texheader->numtextures;
tex = (hlmdl_tex_t *) ((qbyte *) texheader + texheader->textures);
bones = (hlmdl_bone_t *) ((qbyte *) header + header->boneindex);
bonectls = (hlmdl_bonecontroller_t *) ((qbyte *) header + header->controllerindex);
/* won't work - doesn't know exact sizes.
header = Hunk_Alloc(sizeof(hlmdl_header_t));
memcpy(header, (hlmdl_header_t *) buffer, sizeof(hlmdl_header_t));
tex = Hunk_Alloc(sizeof(hlmdl_tex_t)*header->numtextures);
memcpy(tex, (hlmdl_tex_t *) buffer, sizeof(hlmdl_tex_t)*header->numtextures);
bones = Hunk_Alloc(sizeof(hlmdl_bone_t)*header->numtextures);
memcpy(bones, (hlmdl_bone_t *) buffer, sizeof(hlmdl_bone_t)*header->numbones);
bonectls = Hunk_Alloc(sizeof(hlmdl_bonecontroller_t)*header->numcontrollers);
memcpy(bonectls, (hlmdl_bonecontroller_t *) buffer, sizeof(hlmdl_bonecontroller_t)*header->numcontrollers);
*/
model->header = (char *)header - (char *)model;
model->texheader = (char *)texheader - (char *)model;
model->textures = (char *)tex - (char *)model;
model->bones = (char *)bones - (char *)model;
model->bonectls = (char *)bonectls - (char *)model;
texnums = Hunk_Alloc(texheader->numtextures*sizeof(model->texnums));
model->texnums = (char *)texnums - (char *)model;
for(i = 0; i < texheader->numtextures; i++)
{
texnums[i] = GL_LoadTexture8Pal24("", tex[i].w, tex[i].h, (qbyte *) texheader + tex[i].offset, (qbyte *) texheader + tex[i].w * tex[i].h + tex[i].offset, IF_NOALPHA|IF_NOGAMMA);
}
//
// move the complete, relocatable alias model to the cache
//
end = Hunk_LowMark ();
total = end - start;
mod->type = mod_halflife;
Cache_Alloc (&mod->cache, total, mod->name);
if (!mod->cache.data)
return false;
memcpy (mod->cache.data, model, total);
Hunk_FreeToLowMark (start);
return true;
}
#ifdef HLSERVER
void *Mod_GetHalfLifeModelData(model_t *mod)
{
hlmodelcache_t *mc;
if (!mod || mod->type != mod_halflife)
return NULL; //halflife models only, please
mc = Mod_Extradata(mod);
return (void*)((char*)mc + mc->header);
}
#endif
int HLMod_FrameForName(model_t *mod, char *name)
{
int i;
hlmdl_header_t *h;
hlmdl_sequencelist_t *seqs;
hlmodelcache_t *mc;
if (!mod || mod->type != mod_halflife)
return -1; //halflife models only, please
mc = Mod_Extradata(mod);
h = (hlmdl_header_t *)((char *)mc + mc->header);
seqs = (hlmdl_sequencelist_t*)((char*)h+h->seqindex);
for (i = 0; i < h->numseq; i++)
{
if (!strcmp(seqs[i].name, name))
return i;
}
return -1;
}
int HLMod_BoneForName(model_t *mod, char *name)
{
int i;
hlmdl_header_t *h;
hlmdl_bone_t *bones;
hlmodelcache_t *mc;
if (!mod || mod->type != mod_halflife)
return -1; //halflife models only, please
mc = Mod_Extradata(mod);
h = (hlmdl_header_t *)((char *)mc + mc->header);
bones = (hlmdl_bone_t*)((char*)h+h->boneindex);
for (i = 0; i < h->numbones; i++)
{
if (!strcmp(bones[i].name, name))
return i+1;
}
return 0;
}
/*
=======================================================================================================================
HL_CalculateBones - calculate bone positions - quaternion+vector in one function
=======================================================================================================================
note, while ender may be proud of this function, it lacks the fact that interpolating eular angles is not as acurate as interpolating quaternions.
it is faster though.
*/
void HL_CalculateBones
(
int offset,
int frame,
float lerpfrac,
vec4_t adjust,
hlmdl_bone_t *bone,
hlmdl_anim_t *animation,
float *destination
)
{
/*~~~~~~~~~~*/
int i;
vec3_t angle;
float lerpifrac = 1-lerpfrac;
float t;
/*~~~~~~~~~~*/
/* For each vector */
for(i = 0; i < 3; i++)
{
/*~~~~~~~~~~~~~~~*/
int o = i + offset; /* Take the value offset - allows quaternion & vector in one function */
/*~~~~~~~~~~~~~~~*/
angle[i] = bone->value[o]; /* Take the bone value */
if(animation->offset[o] != 0)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
int tempframe = frame;
hlmdl_animvalue_t *animvalue = (hlmdl_animvalue_t *) ((qbyte *) animation + animation->offset[o]);
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
/* find values including the required frame */
while(animvalue->num.total <= tempframe)
{
tempframe -= animvalue->num.total;
animvalue += animvalue->num.valid + 1;
}
if(animvalue->num.valid > tempframe)
{
if(animvalue->num.valid > (tempframe + 1))
{
//we can lerp that
t = animvalue[tempframe + 1].value * lerpifrac + lerpfrac * animvalue[tempframe + 2].value;
}
else
t = animvalue[animvalue->num.valid].value;
angle[i] = bone->value[o] + t * bone->scale[o];
}
else
{
if(animvalue->num.total < tempframe + 1)
{
angle[i] +=
(animvalue[animvalue->num.valid].value * lerpifrac +
lerpfrac * animvalue[animvalue->num.valid + 2].value) *
bone->scale[o];
}
else
{
angle[i] += animvalue[animvalue->num.valid].value * bone->scale[o];
}
}
}
if(bone->bonecontroller[o] != -1)
{ /* Add the programmable offset. */
angle[i] += adjust[bone->bonecontroller[o]];
}
}
if(offset < 3)
{
VectorCopy(angle, destination); /* Just a standard vector */
}
else
{
QuaternionGLAngle(angle, destination); /* A quaternion */
}
}
/*
=======================================================================================================================
HL_CalcBoneAdj - Calculate the adjustment values for the programmable controllers
=======================================================================================================================
*/
void HL_CalcBoneAdj(hlmodel_t *model)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
int i;
float value;
hlmdl_bonecontroller_t *control = (hlmdl_bonecontroller_t *)
((qbyte *) model->header + model->header->controllerindex);
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
for(i = 0; i < model->header->numcontrollers; i++)
{
/*~~~~~~~~~~~~~~~~~~~~~*/
int j = control[i].index;
/*~~~~~~~~~~~~~~~~~~~~~*/
if(control[i].type & 0x8000)
{
value = model->controller[j] + control[i].start;
}
else
{
value = (model->controller[j]+1)*0.5; //shifted to give a valid range between -1 and 1, with 0 being mid-range.
if(value < 0)
value = 0;
else if(value > 1.0)
value = 1.0;
value = (1.0 - value) * control[i].start + value * control[i].end;
}
/* Rotational controllers need their values converted */
if(control[i].type >= 0x0008 && control[i].type <= 0x0020)
model->adjust[i] = M_PI * value / 180;
else
model->adjust[i] = value;
}
}
/*
=======================================================================================================================
HL_SetupBones - determine where vertex should be using bone movements
=======================================================================================================================
*/
void QuaternionSlerp( const vec4_t p, vec4_t q, float t, vec4_t qt );
void HL_SetupBones(hlmodel_t *model, int seqnum, int firstbone, int lastbone, float subblendfrac, float frametime)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
int i;
float matrix[3][4];
static vec3_t positions[2];
static vec4_t quaternions[2], blended;
int frame;
hlmdl_sequencelist_t *sequence = (hlmdl_sequencelist_t *) ((qbyte *) model->header + model->header->seqindex) +
((unsigned int)seqnum>=model->header->numseq?0:seqnum);
hlmdl_sequencedata_t *sequencedata = (hlmdl_sequencedata_t *)
((qbyte *) model->header + model->header->seqgroups) +
sequence->seqindex;
hlmdl_anim_t *animation = (hlmdl_anim_t *)
((qbyte *) model->header + sequencedata->data + sequence->index);
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
frametime *= sequence->timing;
if (frametime < 0)
frametime = 0;
frame = (int)frametime;
frametime -= frame;
if (!sequence->numframes)
return;
if(frame >= sequence->numframes)
{
if (sequence->loop)
frame %= sequence->numframes;
else
frame = sequence->numframes-1;
}
if (lastbone > model->header->numbones)
lastbone = model->header->numbones;
HL_CalcBoneAdj(model); /* Deal with programmable controllers */
/*FIXME:this is useless*/
/*
if(sequence->motiontype & 0x0001)
positions[sequence->motionbone][0] = 0.0;
if(sequence->motiontype & 0x0002)
positions[sequence->motionbone][1] = 0.0;
if(sequence->motiontype & 0x0004)
positions[sequence->motionbone][2] = 0.0;
*/
/*
this is hellish.
a hl model blends:
4 controllers (on a player, it seems each one of them twists a separate bone in the chest)
a mouth (not used on players)
its a sequence (to be smooth we need to blend between two frames in the sequence)
up to four source animations (ironically used to pitch up/down)
alternate sequence (walking+firing)
frame2 (quake expectations.)
this is madness, quite frankly.
luckily...
controllers and mouth control the entire thing. they should be interpolated outside, and have no affect on blending here
alternate sequences replace. we can just call this function twice (so long as bone ranges are incremental).
autoanimating sequence is handled inside HL_CalculateBones (sequences are weird and it has to be handled there anyway)
this means we only have sources and alternate frames left to cope with.
FIXME: we don't handle frame2.
*/
if (sequence->hasblendseq>1)
{
if (subblendfrac < 0)
subblendfrac = 0;
if (subblendfrac > 1)
subblendfrac = 1;
for(i = firstbone; i < lastbone; i++)
{
HL_CalculateBones(0, frame, frametime, model->adjust, model->bones + i, animation + i, positions[0]);
HL_CalculateBones(3, frame, frametime, model->adjust, model->bones + i, animation + i, quaternions[0]);
HL_CalculateBones(3, frame, frametime, model->adjust, model->bones + i, animation + i + model->header->numbones, quaternions[1]);
QuaternionSlerp(quaternions[0], quaternions[1], subblendfrac, blended);
QuaternionGLMatrix(blended[0], blended[1], blended[2], blended[3], matrix);
matrix[0][3] = positions[0][0];
matrix[1][3] = positions[0][1];
matrix[2][3] = positions[0][2];
/* If we have a parent, take the addition. Otherwise just copy the values */
if(model->bones[i].parent>=0)
{
R_ConcatTransforms(transform_matrix[model->bones[i].parent], matrix, transform_matrix[i]);
}
else
{
memcpy(transform_matrix[i], matrix, 12 * sizeof(float));
}
}
}
else
{
for(i = firstbone; i < lastbone; i++)
{
/*
* There are two vector offsets in the structure. The first seems to be the
* positions of the bones, the second the quats of the bone matrix itself. We
* convert it inside the routine - Inconsistant, but hey.. so's the whole model
* format.
*/
HL_CalculateBones(0, frame, frametime, model->adjust, model->bones + i, animation + i, positions[0]);
HL_CalculateBones(3, frame, frametime, model->adjust, model->bones + i, animation + i, quaternions[0]);
QuaternionGLMatrix(quaternions[0][0], quaternions[0][1], quaternions[0][2], quaternions[0][3], matrix);
matrix[0][3] = positions[0][0];
matrix[1][3] = positions[0][1];
matrix[2][3] = positions[0][2];
/* If we have a parent, take the addition. Otherwise just copy the values */
if(model->bones[i].parent>=0)
{
R_ConcatTransforms(transform_matrix[model->bones[i].parent], matrix, transform_matrix[i]);
}
else
{
memcpy(transform_matrix[i], matrix, 12 * sizeof(float));
}
}
}
}
/*
=======================================================================================================================
R_Draw_HL_AliasModel - main drawing function
=======================================================================================================================
*/
void R_DrawHLModel(entity_t *curent)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
hlmodelcache_t *modelc = Mod_Extradata(curent->model);
hlmodel_t model;
int b, m, v;
short *skins;
int bgroup, cbone, lastbone;
float mmat[16], mvmat[16];
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
//general model
model.header = (hlmdl_header_t *) ((char *)modelc + modelc->header);
model.texheader = (hlmdl_header_t *) ((char *)modelc + modelc->texheader);
model.textures = (hlmdl_tex_t *) ((char *)modelc + modelc->textures);
model.bones = (hlmdl_bone_t *) ((char *)modelc + modelc->bones);
model.bonectls = (hlmdl_bonecontroller_t *) ((char *)modelc + modelc->bonectls);
model.texnums = (texid_t *) ((char *)modelc + modelc->texnums);
skins = (short *) ((qbyte *) model.texheader + model.texheader->skins);
if (!model.texheader->numtextures)
{
Con_DPrintf("model with no textures: %s\n", curent->model->name);
return;
}
for (b = 0; b < MAX_BONE_CONTROLLERS; b++)
model.controller[b] = curent->framestate.bonecontrols[b];
GL_TexEnv(GL_MODULATE);
if (curent->shaderRGBAf[3]<1)
{
qglEnable(GL_BLEND);
}
else
{
qglDisable(GL_BLEND);
}
qglBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
// Con_Printf("%s %i\n", sequence->name, sequence->unknown1[0]);
qglPushMatrix();
{
vec3_t difuse, ambient, ldir;
cl.worldmodel->funcs.LightPointValues(cl.worldmodel, curent->origin, difuse, ambient, ldir);
qglColor4f(difuse[0]/255+ambient[0]/255, difuse[1]/255+ambient[1]/255, difuse[2]/255+ambient[2]/255, curent->shaderRGBAf[3]);
}
R_RotateForEntity (mmat, mvmat, curent, curent->model);
qglLoadMatrixf(mvmat);
cbone = 0;
for (bgroup = 0; bgroup < FS_COUNT; bgroup++)
{
lastbone = curent->framestate.g[bgroup].endbone;
if (bgroup == FS_COUNT-1)
lastbone = model.header->numbones;
if (cbone >= lastbone)
continue;
HL_SetupBones(&model, curent->framestate.g[bgroup].frame[0], cbone, lastbone, (curent->framestate.g[bgroup].subblendfrac+1)*0.5, curent->framestate.g[bgroup].frametime[0]); /* Setup the bones */
cbone = lastbone;
}
/* Manipulate each mesh directly */
for(b = 0; b < model.header->numbodyparts; b++)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
hlmdl_bodypart_t *bodypart = (hlmdl_bodypart_t *) ((qbyte *) model.header + model.header->bodypartindex) +
b;
int bodyindex = (0 / bodypart->base) % bodypart->nummodels;
hlmdl_model_t *amodel = (hlmdl_model_t *) ((qbyte *) model.header + bodypart->modelindex) + bodyindex;
qbyte *bone = ((qbyte *) model.header + amodel->vertinfoindex);
vec3_t *verts = (vec3_t *) ((qbyte *) model.header + amodel->vertindex);
vec3_t transformed[2048];
// vec3_t *norms = (vec3_t *) ((qbyte *) model.header + amodel->unknown3[2]);
// vec3_t transformednorms[2048];
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
for(v = 0; v < amodel->numverts; v++) // Transform per the matrix
{
VectorTransform(verts[v], (void *)transform_matrix[bone[v]], transformed[v]);
// glVertex3fv(verts[v]);
// glVertex3f( verts[v][0]+10*verts[v][0],
// verts[v][1]+10*verts[v][1],
// verts[v][2]+10*verts[v][2]);
}
//Need to work out what we have!
//raw data appears to be unit vectors
//transformed gives some points on the skeleton.
//what's also weird is that the meshes use these up!
/* glDisable(GL_TEXTURE_2D);
glBegin(GL_LINES);
for(v = 0; v < amodel->unknown3[0]; v++) // Transform per the matrix
{
VectorTransform(norms[v], transform_matrix[bone[v]], transformednorms[v]);
glVertex3fv(transformednorms[v]);
glVertex3f( transformednorms[v][0]+10*transformednorms[v][0],
transformednorms[v][1]+10*transformednorms[v][1],
transformednorms[v][2]+10*transformednorms[v][2]);
}
glEnd();
glEnable(GL_TEXTURE_2D);
*/
/* Draw each mesh */
for(m = 0; m < amodel->nummesh; m++)
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
hlmdl_mesh_t *mesh = (hlmdl_mesh_t *) ((qbyte *) model.header + amodel->meshindex) + m;
float tex_w;
float tex_h;
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
{
tex_w = 1.0f / model.textures[skins[mesh->skinindex]].w;
tex_h = 1.0f / model.textures[skins[mesh->skinindex]].h;
GL_LazyBind(0, GL_TEXTURE_2D, model.texnums[skins[mesh->skinindex]], false);
}
GL_Draw_HL_AliasFrame((short *) ((qbyte *) model.header + mesh->index), transformed, tex_w, tex_h);
}
}
qglPopMatrix();
GL_TexEnv(GL_REPLACE);
}
/*
=======================================================================================================================
GL_Draw_HL_AliasFrame - clip and draw all triangles
=======================================================================================================================
*/
void GL_Draw_HL_AliasFrame(short *order, vec3_t *transformed, float tex_w, float tex_h)
{
/*~~~~~~~~~~*/
int count = 0;
/*~~~~~~~~~~*/
// int c_tris=0;
// int c_verts=0;
// int c_chains=0;
for(;;)
{
count = *order++; /* get the vertex count and primitive type */
if(!count) break; /* done */
if(count < 0)
{
count = -count;
qglBegin(GL_TRIANGLE_FAN);
}
else
{
qglBegin(GL_TRIANGLE_STRIP);
}
// c_tris += count-2;
// c_chains++;
do
{
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
float *verts = transformed[order[0]];
/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
/* texture coordinates come from the draw list */
qglTexCoord2f(order[2] * tex_w, order[3] * tex_h);
order += 4;
qglVertex3fv(verts);
// c_verts++;
} while(--count);
qglEnd();
}
}
#endif
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