diff --git a/src/hardware/hw_drv.h b/src/hardware/hw_drv.h index e2fa90eb..0afd6d27 100644 --- a/src/hardware/hw_drv.h +++ b/src/hardware/hw_drv.h @@ -58,8 +58,7 @@ EXPORT void HWRAPI(ClearMipMapCache) (void); EXPORT void HWRAPI(SetSpecialState) (hwdspecialstate_t IdState, INT32 Value); //Hurdler: added for new development -EXPORT void HWRAPI(DrawMD2) (INT32 *gl_cmd_buffer, md2_frame_t *frame, FTransform *pos, float scale); -EXPORT void HWRAPI(DrawMD2i) (INT32 *gl_cmd_buffer, md2_frame_t *frame, INT32 duration, INT32 tics, md2_frame_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color); +EXPORT void HWRAPI(DrawModel) (model_t *model, mdlframe_t *frame, INT32 duration, INT32 tics, mdlframe_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color); EXPORT void HWRAPI(SetTransform) (FTransform *ptransform); EXPORT INT32 HWRAPI(GetTextureUsed) (void); EXPORT INT32 HWRAPI(GetRenderVersion) (void); @@ -96,8 +95,7 @@ struct hwdriver_s GClipRect pfnGClipRect; ClearMipMapCache pfnClearMipMapCache; SetSpecialState pfnSetSpecialState;//Hurdler: added for backward compatibility - DrawMD2 pfnDrawMD2; - DrawMD2i pfnDrawMD2i; + DrawModel pfnDrawModel; SetTransform pfnSetTransform; GetTextureUsed pfnGetTextureUsed; GetRenderVersion pfnGetRenderVersion; diff --git a/src/hardware/hw_md2.c b/src/hardware/hw_md2.c index 2856cada..5d865c5a 100644 --- a/src/hardware/hw_md2.c +++ b/src/hardware/hw_md2.c @@ -43,6 +43,7 @@ #include "../r_draw.h" #include "../p_tick.h" #include "../k_kart.h" // colortranslations +#include "hw_model.h" #include "hw_main.h" #include "../v_video.h" @@ -75,172 +76,6 @@ #include "errno.h" #endif -#define NUMVERTEXNORMALS 162 -float avertexnormals[NUMVERTEXNORMALS][3] = { -{-0.525731f, 0.000000f, 0.850651f}, -{-0.442863f, 0.238856f, 0.864188f}, -{-0.295242f, 0.000000f, 0.955423f}, -{-0.309017f, 0.500000f, 0.809017f}, -{-0.162460f, 0.262866f, 0.951056f}, -{0.000000f, 0.000000f, 1.000000f}, -{0.000000f, 0.850651f, 0.525731f}, -{-0.147621f, 0.716567f, 0.681718f}, -{0.147621f, 0.716567f, 0.681718f}, -{0.000000f, 0.525731f, 0.850651f}, -{0.309017f, 0.500000f, 0.809017f}, -{0.525731f, 0.000000f, 0.850651f}, -{0.295242f, 0.000000f, 0.955423f}, -{0.442863f, 0.238856f, 0.864188f}, -{0.162460f, 0.262866f, 0.951056f}, -{-0.681718f, 0.147621f, 0.716567f}, -{-0.809017f, 0.309017f, 0.500000f}, -{-0.587785f, 0.425325f, 0.688191f}, -{-0.850651f, 0.525731f, 0.000000f}, -{-0.864188f, 0.442863f, 0.238856f}, -{-0.716567f, 0.681718f, 0.147621f}, -{-0.688191f, 0.587785f, 0.425325f}, -{-0.500000f, 0.809017f, 0.309017f}, -{-0.238856f, 0.864188f, 0.442863f}, -{-0.425325f, 0.688191f, 0.587785f}, -{-0.716567f, 0.681718f, -0.147621f}, -{-0.500000f, 0.809017f, -0.309017f}, -{-0.525731f, 0.850651f, 0.000000f}, -{0.000000f, 0.850651f, -0.525731f}, -{-0.238856f, 0.864188f, -0.442863f}, -{0.000000f, 0.955423f, -0.295242f}, -{-0.262866f, 0.951056f, -0.162460f}, -{0.000000f, 1.000000f, 0.000000f}, -{0.000000f, 0.955423f, 0.295242f}, -{-0.262866f, 0.951056f, 0.162460f}, -{0.238856f, 0.864188f, 0.442863f}, -{0.262866f, 0.951056f, 0.162460f}, -{0.500000f, 0.809017f, 0.309017f}, -{0.238856f, 0.864188f, -0.442863f}, -{0.262866f, 0.951056f, -0.162460f}, -{0.500000f, 0.809017f, -0.309017f}, -{0.850651f, 0.525731f, 0.000000f}, -{0.716567f, 0.681718f, 0.147621f}, -{0.716567f, 0.681718f, -0.147621f}, -{0.525731f, 0.850651f, 0.000000f}, -{0.425325f, 0.688191f, 0.587785f}, -{0.864188f, 0.442863f, 0.238856f}, -{0.688191f, 0.587785f, 0.425325f}, -{0.809017f, 0.309017f, 0.500000f}, -{0.681718f, 0.147621f, 0.716567f}, -{0.587785f, 0.425325f, 0.688191f}, -{0.955423f, 0.295242f, 0.000000f}, -{1.000000f, 0.000000f, 0.000000f}, -{0.951056f, 0.162460f, 0.262866f}, -{0.850651f, -0.525731f, 0.000000f}, -{0.955423f, -0.295242f, 0.000000f}, -{0.864188f, -0.442863f, 0.238856f}, -{0.951056f, -0.162460f, 0.262866f}, -{0.809017f, -0.309017f, 0.500000f}, -{0.681718f, -0.147621f, 0.716567f}, -{0.850651f, 0.000000f, 0.525731f}, -{0.864188f, 0.442863f, -0.238856f}, -{0.809017f, 0.309017f, -0.500000f}, -{0.951056f, 0.162460f, -0.262866f}, -{0.525731f, 0.000000f, -0.850651f}, -{0.681718f, 0.147621f, -0.716567f}, -{0.681718f, -0.147621f, -0.716567f}, -{0.850651f, 0.000000f, -0.525731f}, -{0.809017f, -0.309017f, -0.500000f}, -{0.864188f, -0.442863f, -0.238856f}, -{0.951056f, -0.162460f, -0.262866f}, -{0.147621f, 0.716567f, -0.681718f}, -{0.309017f, 0.500000f, -0.809017f}, -{0.425325f, 0.688191f, -0.587785f}, -{0.442863f, 0.238856f, -0.864188f}, -{0.587785f, 0.425325f, -0.688191f}, -{0.688191f, 0.587785f, -0.425325f}, -{-0.147621f, 0.716567f, -0.681718f}, -{-0.309017f, 0.500000f, -0.809017f}, -{0.000000f, 0.525731f, -0.850651f}, -{-0.525731f, 0.000000f, -0.850651f}, -{-0.442863f, 0.238856f, -0.864188f}, -{-0.295242f, 0.000000f, -0.955423f}, -{-0.162460f, 0.262866f, -0.951056f}, -{0.000000f, 0.000000f, -1.000000f}, -{0.295242f, 0.000000f, -0.955423f}, -{0.162460f, 0.262866f, -0.951056f}, -{-0.442863f, -0.238856f, -0.864188f}, -{-0.309017f, -0.500000f, -0.809017f}, -{-0.162460f, -0.262866f, -0.951056f}, -{0.000000f, -0.850651f, -0.525731f}, -{-0.147621f, -0.716567f, -0.681718f}, -{0.147621f, -0.716567f, -0.681718f}, -{0.000000f, -0.525731f, -0.850651f}, -{0.309017f, -0.500000f, -0.809017f}, -{0.442863f, -0.238856f, -0.864188f}, -{0.162460f, -0.262866f, -0.951056f}, -{0.238856f, -0.864188f, -0.442863f}, -{0.500000f, -0.809017f, -0.309017f}, -{0.425325f, -0.688191f, -0.587785f}, -{0.716567f, -0.681718f, -0.147621f}, -{0.688191f, -0.587785f, -0.425325f}, -{0.587785f, -0.425325f, -0.688191f}, -{0.000000f, -0.955423f, -0.295242f}, -{0.000000f, -1.000000f, 0.000000f}, -{0.262866f, -0.951056f, -0.162460f}, -{0.000000f, -0.850651f, 0.525731f}, -{0.000000f, -0.955423f, 0.295242f}, -{0.238856f, -0.864188f, 0.442863f}, -{0.262866f, -0.951056f, 0.162460f}, -{0.500000f, -0.809017f, 0.309017f}, -{0.716567f, -0.681718f, 0.147621f}, -{0.525731f, -0.850651f, 0.000000f}, -{-0.238856f, -0.864188f, -0.442863f}, -{-0.500000f, -0.809017f, -0.309017f}, -{-0.262866f, -0.951056f, -0.162460f}, -{-0.850651f, -0.525731f, 0.000000f}, -{-0.716567f, -0.681718f, -0.147621f}, -{-0.716567f, -0.681718f, 0.147621f}, -{-0.525731f, -0.850651f, 0.000000f}, -{-0.500000f, -0.809017f, 0.309017f}, -{-0.238856f, -0.864188f, 0.442863f}, -{-0.262866f, -0.951056f, 0.162460f}, -{-0.864188f, -0.442863f, 0.238856f}, -{-0.809017f, -0.309017f, 0.500000f}, -{-0.688191f, -0.587785f, 0.425325f}, -{-0.681718f, -0.147621f, 0.716567f}, -{-0.442863f, -0.238856f, 0.864188f}, -{-0.587785f, -0.425325f, 0.688191f}, -{-0.309017f, -0.500000f, 0.809017f}, -{-0.147621f, -0.716567f, 0.681718f}, -{-0.425325f, -0.688191f, 0.587785f}, -{-0.162460f, -0.262866f, 0.951056f}, -{0.442863f, -0.238856f, 0.864188f}, -{0.162460f, -0.262866f, 0.951056f}, -{0.309017f, -0.500000f, 0.809017f}, -{0.147621f, -0.716567f, 0.681718f}, -{0.000000f, -0.525731f, 0.850651f}, -{0.425325f, -0.688191f, 0.587785f}, -{0.587785f, -0.425325f, 0.688191f}, -{0.688191f, -0.587785f, 0.425325f}, -{-0.955423f, 0.295242f, 0.000000f}, -{-0.951056f, 0.162460f, 0.262866f}, -{-1.000000f, 0.000000f, 0.000000f}, -{-0.850651f, 0.000000f, 0.525731f}, -{-0.955423f, -0.295242f, 0.000000f}, -{-0.951056f, -0.162460f, 0.262866f}, -{-0.864188f, 0.442863f, -0.238856f}, -{-0.951056f, 0.162460f, -0.262866f}, -{-0.809017f, 0.309017f, -0.500000f}, -{-0.864188f, -0.442863f, -0.238856f}, -{-0.951056f, -0.162460f, -0.262866f}, -{-0.809017f, -0.309017f, -0.500000f}, -{-0.681718f, 0.147621f, -0.716567f}, -{-0.681718f, -0.147621f, -0.716567f}, -{-0.850651f, 0.000000f, -0.525731f}, -{-0.688191f, 0.587785f, -0.425325f}, -{-0.587785f, 0.425325f, -0.688191f}, -{-0.425325f, 0.688191f, -0.587785f}, -{-0.425325f, -0.688191f, -0.587785f}, -{-0.587785f, -0.425325f, -0.688191f}, -{-0.688191f, -0.587785f, -0.425325f}, -}; - md2_t md2_models[NUMSPRITES]; md2_t md2_playermodels[MAXSKINS]; @@ -248,36 +83,9 @@ md2_t md2_playermodels[MAXSKINS]; /* * free model */ -static void md2_freeModel (md2_model_t *model) +static void md2_freeModel (model_t *model) { - if (model) - { - if (model->skins) - free(model->skins); - - if (model->texCoords) - free(model->texCoords); - - if (model->triangles) - free(model->triangles); - - if (model->frames) - { - size_t i; - - for (i = 0; i < model->header.numFrames; i++) - { - if (model->frames[i].vertices) - free(model->frames[i].vertices); - } - free(model->frames); - } - - if (model->glCommandBuffer) - free(model->glCommandBuffer); - - free(model); - } + UnloadModel(model); } @@ -285,157 +93,13 @@ static void md2_freeModel (md2_model_t *model) // load model // // Hurdler: the current path is the Legacy.exe path -static md2_model_t *md2_readModel(const char *filename) +static model_t *md2_readModel(const char *filename) { - FILE *file; - md2_model_t *model; - UINT8 buffer[MD2_MAX_FRAMESIZE]; - size_t i; - - model = calloc(1, sizeof (*model)); - if (model == NULL) - return 0; - //Filename checking fixed ~Monster Iestyn and Golden - file = fopen(va("%s"PATHSEP"%s", srb2home, filename), "rb"); - if (!file) - { - free(model); - return 0; - } - - // initialize model and read header - - if (fread(&model->header, sizeof (model->header), 1, file) != 1 - || model->header.magic != MD2_IDENT - || model->header.version != MD2_VERSION) - { - fclose(file); - free(model); - return 0; - } - - model->header.numSkins = 1; - -#define MD2LIMITCHECK(field, max, msgname) \ - if (field > max) \ - { \ - CONS_Alert(CONS_ERROR, "md2_readModel: %s has too many " msgname " (# found: %d, maximum: %d)\n", filename, field, max); \ - md2_freeModel (model); \ - fclose(file); \ - return 0; \ - } - - // Uncomment if these are actually needed -// MD2LIMITCHECK(model->header.numSkins, MD2_MAX_SKINS, "skins") -// MD2LIMITCHECK(model->header.numTexCoords, MD2_MAX_TEXCOORDS, "texture coordinates") - MD2LIMITCHECK(model->header.numTriangles, MD2_MAX_TRIANGLES, "triangles") - MD2LIMITCHECK(model->header.numFrames, MD2_MAX_FRAMES, "frames") - MD2LIMITCHECK(model->header.numVertices, MD2_MAX_VERTICES, "vertices") - -#undef MD2LIMITCHECK - - // read skins - fseek(file, model->header.offsetSkins, SEEK_SET); - if (model->header.numSkins > 0) - { - model->skins = calloc(sizeof (md2_skin_t), model->header.numSkins); - if (!model->skins || model->header.numSkins != - fread(model->skins, sizeof (md2_skin_t), model->header.numSkins, file)) - { - md2_freeModel (model); - fclose(file); - return 0; - } - } - - // read texture coordinates - fseek(file, model->header.offsetTexCoords, SEEK_SET); - if (model->header.numTexCoords > 0) - { - model->texCoords = calloc(sizeof (md2_textureCoordinate_t), model->header.numTexCoords); - if (!model->texCoords || model->header.numTexCoords != - fread(model->texCoords, sizeof (md2_textureCoordinate_t), model->header.numTexCoords, file)) - { - md2_freeModel (model); - fclose(file); - return 0; - } - } - - // read triangles - fseek(file, model->header.offsetTriangles, SEEK_SET); - if (model->header.numTriangles > 0) - { - model->triangles = calloc(sizeof (md2_triangle_t), model->header.numTriangles); - if (!model->triangles || model->header.numTriangles != - fread(model->triangles, sizeof (md2_triangle_t), model->header.numTriangles, file)) - { - md2_freeModel (model); - fclose(file); - return 0; - } - } - - // read alias frames - fseek(file, model->header.offsetFrames, SEEK_SET); - if (model->header.numFrames > 0) - { - model->frames = calloc(sizeof (md2_frame_t), model->header.numFrames); - if (!model->frames) - { - md2_freeModel (model); - fclose(file); - return 0; - } - - for (i = 0; i < model->header.numFrames; i++) - { - md2_alias_frame_t *frame = (md2_alias_frame_t *)(void *)buffer; - size_t j; - - model->frames[i].vertices = calloc(sizeof (md2_triangleVertex_t), model->header.numVertices); - if (!model->frames[i].vertices || model->header.frameSize != - fread(frame, 1, model->header.frameSize, file)) - { - md2_freeModel (model); - fclose(file); - return 0; - } - - strcpy(model->frames[i].name, frame->name); - for (j = 0; j < model->header.numVertices; j++) - { - model->frames[i].vertices[j].vertex[0] = (float) ((INT32) frame->alias_vertices[j].vertex[0]) * frame->scale[0] + frame->translate[0]; - model->frames[i].vertices[j].vertex[2] = -1* ((float) ((INT32) frame->alias_vertices[j].vertex[1]) * frame->scale[1] + frame->translate[1]); - model->frames[i].vertices[j].vertex[1] = (float) ((INT32) frame->alias_vertices[j].vertex[2]) * frame->scale[2] + frame->translate[2]; - model->frames[i].vertices[j].normal[0] = avertexnormals[frame->alias_vertices[j].lightNormalIndex][0]; - model->frames[i].vertices[j].normal[1] = avertexnormals[frame->alias_vertices[j].lightNormalIndex][1]; - model->frames[i].vertices[j].normal[2] = avertexnormals[frame->alias_vertices[j].lightNormalIndex][2]; - } - } - } - - // read gl commands - fseek(file, model->header.offsetGlCommands, SEEK_SET); - if (model->header.numGlCommands) - { - model->glCommandBuffer = calloc(sizeof (INT32), model->header.numGlCommands); - if (!model->glCommandBuffer || model->header.numGlCommands != - fread(model->glCommandBuffer, sizeof (INT32), model->header.numGlCommands, file)) - { - md2_freeModel (model); - fclose(file); - return 0; - } - } - - fclose(file); - - return model; + return LoadModel(va("%s"PATHSEP"%s", srb2home, filename), PU_STATIC); } -static inline void md2_printModelInfo (md2_model_t *model) +static inline void md2_printModelInfo (model_t *model) { #if 0 INT32 i; @@ -936,7 +600,7 @@ void HWR_AddSpriteMD2(size_t spritenum) // For MD2s that were added after startu return; } - // Check for any MD2s that match the names of player skins! + // Check for any MD2s that match the names of sprite names! while (fscanf(f, "%19s %31s %f %f", name, filename, &scale, &offset) == 4) { if (stricmp(name, sprnames[spritenum]) == 0) @@ -1216,10 +880,9 @@ void HWR_DrawMD2(gr_vissprite_t *spr) // Look at HWR_ProjectSprite for more { GLPatch_t *gpatch; - INT32 *buff; INT32 durs = spr->mobj->state->tics; INT32 tics = spr->mobj->tics; - md2_frame_t *curr, *next = NULL; + mdlframe_t *curr, *next = NULL; const UINT8 flip = (UINT8)((spr->mobj->eflags & MFE_VERTICALFLIP) == MFE_VERTICALFLIP); spritedef_t *sprdef; spriteframe_t *sprframe; @@ -1332,9 +995,8 @@ void HWR_DrawMD2(gr_vissprite_t *spr) } //FIXME: this is not yet correct - frame = (spr->mobj->frame & FF_FRAMEMASK) % md2->model->header.numFrames; - buff = md2->model->glCommandBuffer; - curr = &md2->model->frames[frame]; + frame = (spr->mobj->frame & FF_FRAMEMASK) % md2->model->meshes[0].numFrames; + curr = &md2->model->meshes[0].frames[frame]; #if 0 if (cv_grmd2.value == 1 && tics <= durs) { @@ -1401,7 +1063,6 @@ void HWR_DrawMD2(gr_vissprite_t *spr) p.anglex = FIXED_TO_FLOAT(tempangle); } - color[0] = Surf.FlatColor.s.red; color[1] = Surf.FlatColor.s.green; color[2] = Surf.FlatColor.s.blue; @@ -1413,7 +1074,7 @@ void HWR_DrawMD2(gr_vissprite_t *spr) p.flip = atransform.flip; p.mirror = atransform.mirror; - HWD.pfnDrawMD2i(buff, curr, durs, tics, next, &p, finalscale, flip, color); + HWD.pfnDrawModel(md2->model, curr, durs, tics, next, &p, finalscale, flip, color); } } diff --git a/src/hardware/hw_md2.h b/src/hardware/hw_md2.h index ca43c7b4..57d8026b 100644 --- a/src/hardware/hw_md2.h +++ b/src/hardware/hw_md2.h @@ -22,97 +22,7 @@ #define _HW_MD2_H_ #include "hw_glob.h" - -// magic number "IDP2" or 844121161 -#define MD2_IDENT (INT32)(('2' << 24) + ('P' << 16) + ('D' << 8) + 'I') -// model version -#define MD2_VERSION 8 - -#define MD2_MAX_TRIANGLES 16384 -#define MD2_MAX_VERTICES 4096 -#define MD2_MAX_TEXCOORDS 4096 -#define MD2_MAX_FRAMES 512 -#define MD2_MAX_SKINS 32 -#define MD2_MAX_FRAMESIZE (MD2_MAX_VERTICES * 4 + 128) - -#if defined(_MSC_VER) -#pragma pack(1) -#endif -typedef struct -{ - UINT32 magic; - UINT32 version; - UINT32 skinWidth; - UINT32 skinHeight; - UINT32 frameSize; - UINT32 numSkins; - UINT32 numVertices; - UINT32 numTexCoords; - UINT32 numTriangles; - UINT32 numGlCommands; - UINT32 numFrames; - UINT32 offsetSkins; - UINT32 offsetTexCoords; - UINT32 offsetTriangles; - UINT32 offsetFrames; - UINT32 offsetGlCommands; - UINT32 offsetEnd; -} ATTRPACK md2_header_t; //NOTE: each of md2_header's members are 4 unsigned bytes - -typedef struct -{ - UINT8 vertex[3]; - UINT8 lightNormalIndex; -} ATTRPACK md2_alias_triangleVertex_t; - -typedef struct -{ - float vertex[3]; - float normal[3]; -} ATTRPACK md2_triangleVertex_t; - -typedef struct -{ - INT16 vertexIndices[3]; - INT16 textureIndices[3]; -} ATTRPACK md2_triangle_t; - -typedef struct -{ - INT16 s, t; -} ATTRPACK md2_textureCoordinate_t; - -typedef struct -{ - float scale[3]; - float translate[3]; - char name[16]; - md2_alias_triangleVertex_t alias_vertices[1]; -} ATTRPACK md2_alias_frame_t; - -typedef struct -{ - char name[16]; - md2_triangleVertex_t *vertices; -} ATTRPACK md2_frame_t; - -typedef char md2_skin_t[64]; - -typedef struct -{ - float s, t; - INT32 vertexIndex; -} ATTRPACK md2_glCommandVertex_t; - -typedef struct -{ - md2_header_t header; - md2_skin_t *skins; - md2_textureCoordinate_t *texCoords; - md2_triangle_t *triangles; - md2_frame_t *frames; - INT32 *glCommandBuffer; -} ATTRPACK md2_model_t; +#include "hw_model.h" #if defined(_MSC_VER) #pragma pack() @@ -123,7 +33,7 @@ typedef struct char filename[32]; float scale; float offset; - md2_model_t *model; + model_t *model; void *grpatch; void *blendgrpatch; boolean notfound; diff --git a/src/hardware/hw_md2load.c b/src/hardware/hw_md2load.c new file mode 100644 index 00000000..3b083fee --- /dev/null +++ b/src/hardware/hw_md2load.c @@ -0,0 +1,520 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#include +#include +#include +#include "../doomdef.h" +#include "hw_md2load.h" +#include "hw_model.h" +#include "../z_zone.h" + +#define NUMVERTEXNORMALS 162 + +// Quake 2 normals are indexed. Use avertexnormals[normalindex][x/y/z] and +// you'll have your normals. +float avertexnormals[NUMVERTEXNORMALS][3] = { +{-0.525731f, 0.000000f, 0.850651f}, +{-0.442863f, 0.238856f, 0.864188f}, +{-0.295242f, 0.000000f, 0.955423f}, +{-0.309017f, 0.500000f, 0.809017f}, +{-0.162460f, 0.262866f, 0.951056f}, +{0.000000f, 0.000000f, 1.000000f}, +{0.000000f, 0.850651f, 0.525731f}, +{-0.147621f, 0.716567f, 0.681718f}, +{0.147621f, 0.716567f, 0.681718f}, +{0.000000f, 0.525731f, 0.850651f}, +{0.309017f, 0.500000f, 0.809017f}, +{0.525731f, 0.000000f, 0.850651f}, +{0.295242f, 0.000000f, 0.955423f}, +{0.442863f, 0.238856f, 0.864188f}, +{0.162460f, 0.262866f, 0.951056f}, +{-0.681718f, 0.147621f, 0.716567f}, +{-0.809017f, 0.309017f, 0.500000f}, +{-0.587785f, 0.425325f, 0.688191f}, +{-0.850651f, 0.525731f, 0.000000f}, +{-0.864188f, 0.442863f, 0.238856f}, +{-0.716567f, 0.681718f, 0.147621f}, +{-0.688191f, 0.587785f, 0.425325f}, +{-0.500000f, 0.809017f, 0.309017f}, +{-0.238856f, 0.864188f, 0.442863f}, +{-0.425325f, 0.688191f, 0.587785f}, +{-0.716567f, 0.681718f, -0.147621f}, +{-0.500000f, 0.809017f, -0.309017f}, +{-0.525731f, 0.850651f, 0.000000f}, +{0.000000f, 0.850651f, -0.525731f}, +{-0.238856f, 0.864188f, -0.442863f}, +{0.000000f, 0.955423f, -0.295242f}, +{-0.262866f, 0.951056f, -0.162460f}, +{0.000000f, 1.000000f, 0.000000f}, +{0.000000f, 0.955423f, 0.295242f}, +{-0.262866f, 0.951056f, 0.162460f}, +{0.238856f, 0.864188f, 0.442863f}, +{0.262866f, 0.951056f, 0.162460f}, +{0.500000f, 0.809017f, 0.309017f}, +{0.238856f, 0.864188f, -0.442863f}, +{0.262866f, 0.951056f, -0.162460f}, +{0.500000f, 0.809017f, -0.309017f}, +{0.850651f, 0.525731f, 0.000000f}, +{0.716567f, 0.681718f, 0.147621f}, +{0.716567f, 0.681718f, -0.147621f}, +{0.525731f, 0.850651f, 0.000000f}, +{0.425325f, 0.688191f, 0.587785f}, +{0.864188f, 0.442863f, 0.238856f}, +{0.688191f, 0.587785f, 0.425325f}, +{0.809017f, 0.309017f, 0.500000f}, +{0.681718f, 0.147621f, 0.716567f}, +{0.587785f, 0.425325f, 0.688191f}, +{0.955423f, 0.295242f, 0.000000f}, +{1.000000f, 0.000000f, 0.000000f}, +{0.951056f, 0.162460f, 0.262866f}, +{0.850651f, -0.525731f, 0.000000f}, +{0.955423f, -0.295242f, 0.000000f}, +{0.864188f, -0.442863f, 0.238856f}, +{0.951056f, -0.162460f, 0.262866f}, +{0.809017f, -0.309017f, 0.500000f}, +{0.681718f, -0.147621f, 0.716567f}, +{0.850651f, 0.000000f, 0.525731f}, +{0.864188f, 0.442863f, -0.238856f}, +{0.809017f, 0.309017f, -0.500000f}, +{0.951056f, 0.162460f, -0.262866f}, +{0.525731f, 0.000000f, -0.850651f}, +{0.681718f, 0.147621f, -0.716567f}, +{0.681718f, -0.147621f, -0.716567f}, +{0.850651f, 0.000000f, -0.525731f}, +{0.809017f, -0.309017f, -0.500000f}, +{0.864188f, -0.442863f, -0.238856f}, +{0.951056f, -0.162460f, -0.262866f}, +{0.147621f, 0.716567f, -0.681718f}, +{0.309017f, 0.500000f, -0.809017f}, +{0.425325f, 0.688191f, -0.587785f}, +{0.442863f, 0.238856f, -0.864188f}, +{0.587785f, 0.425325f, -0.688191f}, +{0.688191f, 0.587785f, -0.425325f}, +{-0.147621f, 0.716567f, -0.681718f}, +{-0.309017f, 0.500000f, -0.809017f}, +{0.000000f, 0.525731f, -0.850651f}, +{-0.525731f, 0.000000f, -0.850651f}, +{-0.442863f, 0.238856f, -0.864188f}, +{-0.295242f, 0.000000f, -0.955423f}, +{-0.162460f, 0.262866f, -0.951056f}, +{0.000000f, 0.000000f, -1.000000f}, +{0.295242f, 0.000000f, -0.955423f}, +{0.162460f, 0.262866f, -0.951056f}, +{-0.442863f, -0.238856f, -0.864188f}, +{-0.309017f, -0.500000f, -0.809017f}, +{-0.162460f, -0.262866f, -0.951056f}, +{0.000000f, -0.850651f, -0.525731f}, +{-0.147621f, -0.716567f, -0.681718f}, +{0.147621f, -0.716567f, -0.681718f}, +{0.000000f, -0.525731f, -0.850651f}, +{0.309017f, -0.500000f, -0.809017f}, +{0.442863f, -0.238856f, -0.864188f}, +{0.162460f, -0.262866f, -0.951056f}, +{0.238856f, -0.864188f, -0.442863f}, +{0.500000f, -0.809017f, -0.309017f}, +{0.425325f, -0.688191f, -0.587785f}, +{0.716567f, -0.681718f, -0.147621f}, +{0.688191f, -0.587785f, -0.425325f}, +{0.587785f, -0.425325f, -0.688191f}, +{0.000000f, -0.955423f, -0.295242f}, +{0.000000f, -1.000000f, 0.000000f}, +{0.262866f, -0.951056f, -0.162460f}, +{0.000000f, -0.850651f, 0.525731f}, +{0.000000f, -0.955423f, 0.295242f}, +{0.238856f, -0.864188f, 0.442863f}, +{0.262866f, -0.951056f, 0.162460f}, +{0.500000f, -0.809017f, 0.309017f}, +{0.716567f, -0.681718f, 0.147621f}, +{0.525731f, -0.850651f, 0.000000f}, +{-0.238856f, -0.864188f, -0.442863f}, +{-0.500000f, -0.809017f, -0.309017f}, +{-0.262866f, -0.951056f, -0.162460f}, +{-0.850651f, -0.525731f, 0.000000f}, +{-0.716567f, -0.681718f, -0.147621f}, +{-0.716567f, -0.681718f, 0.147621f}, +{-0.525731f, -0.850651f, 0.000000f}, +{-0.500000f, -0.809017f, 0.309017f}, +{-0.238856f, -0.864188f, 0.442863f}, +{-0.262866f, -0.951056f, 0.162460f}, +{-0.864188f, -0.442863f, 0.238856f}, +{-0.809017f, -0.309017f, 0.500000f}, +{-0.688191f, -0.587785f, 0.425325f}, +{-0.681718f, -0.147621f, 0.716567f}, +{-0.442863f, -0.238856f, 0.864188f}, +{-0.587785f, -0.425325f, 0.688191f}, +{-0.309017f, -0.500000f, 0.809017f}, +{-0.147621f, -0.716567f, 0.681718f}, +{-0.425325f, -0.688191f, 0.587785f}, +{-0.162460f, -0.262866f, 0.951056f}, +{0.442863f, -0.238856f, 0.864188f}, +{0.162460f, -0.262866f, 0.951056f}, +{0.309017f, -0.500000f, 0.809017f}, +{0.147621f, -0.716567f, 0.681718f}, +{0.000000f, -0.525731f, 0.850651f}, +{0.425325f, -0.688191f, 0.587785f}, +{0.587785f, -0.425325f, 0.688191f}, +{0.688191f, -0.587785f, 0.425325f}, +{-0.955423f, 0.295242f, 0.000000f}, +{-0.951056f, 0.162460f, 0.262866f}, +{-1.000000f, 0.000000f, 0.000000f}, +{-0.850651f, 0.000000f, 0.525731f}, +{-0.955423f, -0.295242f, 0.000000f}, +{-0.951056f, -0.162460f, 0.262866f}, +{-0.864188f, 0.442863f, -0.238856f}, +{-0.951056f, 0.162460f, -0.262866f}, +{-0.809017f, 0.309017f, -0.500000f}, +{-0.864188f, -0.442863f, -0.238856f}, +{-0.951056f, -0.162460f, -0.262866f}, +{-0.809017f, -0.309017f, -0.500000f}, +{-0.681718f, 0.147621f, -0.716567f}, +{-0.681718f, -0.147621f, -0.716567f}, +{-0.850651f, 0.000000f, -0.525731f}, +{-0.688191f, 0.587785f, -0.425325f}, +{-0.587785f, 0.425325f, -0.688191f}, +{-0.425325f, 0.688191f, -0.587785f}, +{-0.425325f, -0.688191f, -0.587785f}, +{-0.587785f, -0.425325f, -0.688191f}, +{-0.688191f, -0.587785f, -0.425325f}, +}; + +typedef struct +{ + int ident; // A "magic number" that's used to identify the .md2 file + int version; // The version of the file, always 8 + int skinwidth; // Width of the skin(s) in pixels + int skinheight; // Height of the skin(s) in pixels + int framesize; // Size of each frame in bytes + int numSkins; // Number of skins with the model + int numXYZ; // Number of vertices in each frame + int numST; // Number of texture coordinates in each frame. + int numTris; // Number of triangles in each frame + int numGLcmds; // Number of dwords (4 bytes) in the gl command list. + int numFrames; // Number of frames + int offsetSkins; // Offset, in bytes from the start of the file, to the list of skin names. + int offsetST; // Offset, in bytes from the start of the file, to the list of texture coordinates + int offsetTris; // Offset, in bytes from the start of the file, to the list of triangles + int offsetFrames; // Offset, in bytes from the start of the file, to the list of frames + int offsetGLcmds; // Offset, in bytes from the start of the file, to the list of gl commands + int offsetEnd; // Offset, in bytes from the start of the file, to the end of the file (filesize) +} md2header_t; + +typedef struct +{ + unsigned short meshIndex[3]; // indices into the array of vertices in each frames + unsigned short stIndex[3]; // indices into the array of texture coordinates +} md2triangle_t; + +typedef struct +{ + short s; + short t; +} md2texcoord_t; + +typedef struct +{ + unsigned char v[3]; // Scaled vertices. You'll need to multiply them with scale[x] to make them normal. + unsigned char lightNormalIndex; // Index to the array of normals +} md2vertex_t; + +typedef struct +{ + float scale[3]; // Used by the v member in the md2framePoint structure + float translate[3]; // Used by the v member in the md2framePoint structure + char name[16]; // Name of the frame +} md2frame_t; + +// Load the model +model_t *MD2_LoadModel(const char *fileName, int ztag, boolean useFloat) +{ + useFloat = true; // Right now we always useFloat = true, because the GL subsystem needs some work for the other option to work. + + model_t *retModel = NULL; + md2header_t *header; + + FILE *f = fopen(fileName, "rb"); + + if (!f) + return NULL; + + retModel = (model_t*)Z_Calloc(sizeof(model_t), ztag, 0); + + size_t fileLen; + int i, j; + + size_t namelen; + char *texturefilename; + const char *texPos = strchr(fileName, '/'); + + if (texPos) + { + texPos++; + namelen = strlen(texPos) + 1; + texturefilename = (char*)Z_Malloc(namelen, PU_CACHE, 0); + strcpy(texturefilename, texPos); + } + else + { + namelen = strlen(fileName) + 1; + texturefilename = (char*)Z_Malloc(namelen, PU_CACHE, 0); + strcpy(texturefilename, fileName); + } + + texturefilename[namelen-2] = 'z'; + texturefilename[namelen-3] = 'u'; + texturefilename[namelen-4] = 'b'; + + // find length of file + fseek(f, 0, SEEK_END); + fileLen = ftell(f); + fseek(f, 0, SEEK_SET); + + // read in file + char *buffer = malloc(fileLen); + fread(buffer, fileLen, 1, f); + fclose(f); + + // get pointer to file header + header = (md2header_t*)buffer; + + retModel->numMeshes = 1; // MD2 only has one mesh + retModel->meshes = (mesh_t*)Z_Calloc(sizeof(mesh_t) * retModel->numMeshes, ztag, 0); + retModel->meshes[0].numFrames = header->numFrames; + const float WUNITS = 1.0f; + float dataScale = WUNITS; + + // Tris and ST are simple structures that can be straight-copied + md2triangle_t *tris = (md2triangle_t*)&buffer[header->offsetTris]; + md2texcoord_t *texcoords = (md2texcoord_t*)&buffer[header->offsetST]; + md2frame_t *frames = (md2frame_t*)&buffer[header->offsetFrames]; + + // Read in textures + retModel->numMaterials = header->numSkins; + + if (retModel->numMaterials <= 0) // Always at least one skin, duh + retModel->numMaterials = 1; + + retModel->materials = (material_t*)Z_Calloc(sizeof(material_t)*retModel->numMaterials, ztag, 0); + + int t; + for (t = 0; t < retModel->numMaterials; t++) + { + retModel->materials[t].ambient[0] = 0.8f; + retModel->materials[t].ambient[1] = 0.8f; + retModel->materials[t].ambient[2] = 0.8f; + retModel->materials[t].ambient[3] = 1.0f; + retModel->materials[t].diffuse[0] = 0.8f; + retModel->materials[t].diffuse[1] = 0.8f; + retModel->materials[t].diffuse[2] = 0.8f; + retModel->materials[t].diffuse[3] = 1.0f; + retModel->materials[t].emissive[0] = 0.0f; + retModel->materials[t].emissive[1] = 0.0f; + retModel->materials[t].emissive[2] = 0.0f; + retModel->materials[t].emissive[3] = 1.0f; + retModel->materials[t].specular[0] = 0.0f; + retModel->materials[t].specular[1] = 0.0f; + retModel->materials[t].specular[2] = 0.0f; + retModel->materials[t].specular[3] = 1.0f; + retModel->materials[t].shininess = 0.0f; + retModel->materials[t].spheremap = false; + +/* retModel->materials[t].texture = Texture::ReadTexture((char*)texturefilename, ZT_TEXTURE); + + if (!systemSucks) + { + // Check for a normal map...?? + char openfilename[1024]; + char normalMapName[1024]; + strcpy(normalMapName, texturefilename); + size_t len = strlen(normalMapName); + char *ptr = &normalMapName[len]; + ptr--; // z + ptr--; // u + ptr--; // b + ptr--; // . + *ptr++ = '_'; + *ptr++ = 'n'; + *ptr++ = '.'; + *ptr++ = 'b'; + *ptr++ = 'u'; + *ptr++ = 'z'; + *ptr++ = '\0'; + + sprintf(openfilename, "%s/%s", "textures", normalMapName); + // Convert backslashes to forward slashes + for (int k = 0; k < 1024; k++) + { + if (openfilename[k] == '\0') + break; + + if (openfilename[k] == '\\') + openfilename[k] = '/'; + } + + Resource::resource_t *res = Resource::Open(openfilename); + if (res) + { + Resource::Close(res); + retModel->materials[t].lightmap = Texture::ReadTexture(normalMapName, ZT_TEXTURE); + } + }*/ + } + + retModel->meshes[0].numTriangles = header->numTris; + + if (!useFloat) // Decompress to MD3 'tinyframe' space + { + dataScale = 0.015624f; // 1 / 64.0f + retModel->meshes[0].tinyframes = (tinyframe_t*)Z_Calloc(sizeof(tinyframe_t)*header->numFrames, ztag, 0); + retModel->meshes[0].numVertices = header->numXYZ; + retModel->meshes[0].uvs = (float*)Z_Malloc (sizeof(float)*2*retModel->meshes[0].numVertices, ztag, 0); + + byte *ptr = (byte*)frames; + for (i = 0; i < header->numFrames; i++, ptr += header->framesize) + { + md2frame_t *framePtr = (md2frame_t*)ptr; + retModel->meshes[0].tinyframes[i].vertices = (short*)Z_Malloc(sizeof(short)*3*header->numXYZ, ztag, 0); + retModel->meshes[0].tinyframes[i].normals = (char*)Z_Malloc(sizeof(char)*3*header->numXYZ, ztag, 0); + +// if (retModel->materials[0].lightmap) +// retModel->meshes[0].tinyframes[i].tangents = (char*)malloc(sizeof(char));//(char*)Z_Malloc(sizeof(char)*3*header->numVerts, ztag); + retModel->meshes[0].indices = (unsigned short*)Z_Malloc(sizeof(unsigned short) * 3 * header->numTris, ztag, 0); + + short *vertptr = retModel->meshes[0].tinyframes[i].vertices; + char *normptr = retModel->meshes[0].tinyframes[i].normals; + +// char *tanptr = retModel->meshes[0].tinyframes[i].tangents; + retModel->meshes[0].tinyframes[i].material = &retModel->materials[0]; + + framePtr++; // Advance to vertex list + md2vertex_t *vertex = (md2vertex_t*)framePtr; + framePtr--; + for (j = 0; j < header->numXYZ; j++, vertex++) + { + *vertptr = (short)(((vertex->v[1] * framePtr->scale[1]) + framePtr->translate[1]) / dataScale); + vertptr++; + *vertptr = (short)(((vertex->v[2] * framePtr->scale[2]) + framePtr->translate[2]) / dataScale); + vertptr++; + *vertptr = (short)(((vertex->v[0] * framePtr->scale[0]) + framePtr->translate[0]) / dataScale); + vertptr++; + + // Normal + *normptr++ = (byte)(avertexnormals[vertex->lightNormalIndex][1] * 127); + *normptr++ = (byte)(avertexnormals[vertex->lightNormalIndex][2] * 127); + *normptr++ = (byte)(avertexnormals[vertex->lightNormalIndex][0] * 127); + } + } + + // This doesn't need to be done every frame! + md2triangle_t *trisPtr = tris; + unsigned short *indexptr = retModel->meshes[0].indices; + float *uvptr = (float*)retModel->meshes[0].uvs; + for (j = 0; j < header->numTris; j++, trisPtr++) + { + *indexptr = trisPtr->meshIndex[0]; + indexptr++; + *indexptr = trisPtr->meshIndex[2]; + indexptr++; + *indexptr = trisPtr->meshIndex[1]; + indexptr++; + + uvptr[trisPtr->meshIndex[1] * 2] = texcoords[trisPtr->stIndex[1]].s / (float)header->skinwidth; + uvptr[trisPtr->meshIndex[1] * 2 + 1] = (texcoords[trisPtr->stIndex[1]].t / (float)header->skinheight); + uvptr[trisPtr->meshIndex[2] * 2] = texcoords[trisPtr->stIndex[2]].s / (float)header->skinwidth; + uvptr[trisPtr->meshIndex[2] * 2 + 1] = (texcoords[trisPtr->stIndex[2]].t / (float)header->skinheight); + uvptr[trisPtr->meshIndex[0] * 2] = texcoords[trisPtr->stIndex[0]].s / (float)header->skinwidth; + uvptr[trisPtr->meshIndex[0] * 2 + 1] = (texcoords[trisPtr->stIndex[0]].t / (float)header->skinheight); + } + } + else // Full float loading method + { + retModel->meshes[0].numVertices = header->numTris*3; + retModel->meshes[0].frames = (mdlframe_t*)Z_Calloc(sizeof(mdlframe_t)*header->numFrames, ztag, 0); + retModel->meshes[0].uvs = (float*)Z_Malloc(sizeof(float)*2*retModel->meshes[0].numVertices, ztag, 0); + + md2triangle_t *trisPtr = tris; + float *uvptr = retModel->meshes[0].uvs; + for (i = 0; i < retModel->meshes[0].numTriangles; i++, trisPtr++) + { + *uvptr++ = texcoords[trisPtr->stIndex[0]].s / (float)header->skinwidth; + *uvptr++ = (texcoords[trisPtr->stIndex[0]].t / (float)header->skinheight); + *uvptr++ = texcoords[trisPtr->stIndex[1]].s / (float)header->skinwidth; + *uvptr++ = (texcoords[trisPtr->stIndex[1]].t / (float)header->skinheight); + *uvptr++ = texcoords[trisPtr->stIndex[2]].s / (float)header->skinwidth; + *uvptr++ = (texcoords[trisPtr->stIndex[2]].t / (float)header->skinheight); + } + + byte *ptr = (byte*)frames; + for (i = 0; i < header->numFrames; i++, ptr += header->framesize) + { + md2frame_t *framePtr = (md2frame_t*)ptr; + retModel->meshes[0].frames[i].normals = (float*)Z_Malloc(sizeof(float)*3*header->numTris*3, ztag, 0); + retModel->meshes[0].frames[i].vertices = (float*)Z_Malloc(sizeof(float)*3*header->numTris*3, ztag, 0); +// if (retModel->materials[0].lightmap) +// retModel->meshes[0].frames[i].tangents = (float*)malloc(sizeof(float));//(float*)Z_Malloc(sizeof(float)*3*header->numTris*3, ztag); + float *vertptr, *normptr; + normptr = (float*)retModel->meshes[0].frames[i].normals; + vertptr = (float*)retModel->meshes[0].frames[i].vertices; + trisPtr = tris; + + retModel->meshes[0].frames[i].material = &retModel->materials[0]; + + framePtr++; // Advance to vertex list + md2vertex_t *vertex = (md2vertex_t*)framePtr; + framePtr--; + for (j = 0; j < header->numTris; j++, trisPtr++) + { + *vertptr = ((vertex[trisPtr->meshIndex[0]].v[0] * framePtr->scale[0]) + framePtr->translate[0]) * WUNITS; + vertptr++; + *vertptr = ((vertex[trisPtr->meshIndex[0]].v[2] * framePtr->scale[2]) + framePtr->translate[2]) * WUNITS; + vertptr++; + *vertptr = -1.0f * ((vertex[trisPtr->meshIndex[0]].v[1] * framePtr->scale[1]) + framePtr->translate[1]) * WUNITS; + vertptr++; + + *vertptr = ((vertex[trisPtr->meshIndex[1]].v[0] * framePtr->scale[0]) + framePtr->translate[0]) * WUNITS; + vertptr++; + *vertptr = ((vertex[trisPtr->meshIndex[1]].v[2] * framePtr->scale[2]) + framePtr->translate[2]) * WUNITS; + vertptr++; + *vertptr = -1.0f * ((vertex[trisPtr->meshIndex[1]].v[1] * framePtr->scale[1]) + framePtr->translate[1]) * WUNITS; + vertptr++; + + *vertptr = ((vertex[trisPtr->meshIndex[2]].v[0] * framePtr->scale[0]) + framePtr->translate[0]) * WUNITS; + vertptr++; + *vertptr = ((vertex[trisPtr->meshIndex[2]].v[2] * framePtr->scale[2]) + framePtr->translate[2]) * WUNITS; + vertptr++; + *vertptr = -1.0f * ((vertex[trisPtr->meshIndex[2]].v[1] * framePtr->scale[1]) + framePtr->translate[1]) * WUNITS; + vertptr++; + + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[0]].lightNormalIndex][0]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[0]].lightNormalIndex][1]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[0]].lightNormalIndex][2]; + + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[1]].lightNormalIndex][0]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[1]].lightNormalIndex][1]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[1]].lightNormalIndex][2]; + + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[2]].lightNormalIndex][0]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[2]].lightNormalIndex][1]; + *normptr++ = avertexnormals[vertex[trisPtr->meshIndex[2]].lightNormalIndex][2]; + } + /* + // Rotate MD2 by 90 degrees in code BLAAHH + vector_t *normVecptr = (vector_t*)retModel->meshes[0].frames[i].normals; + vector_t *vertVecptr = (vector_t*)retModel->meshes[0].frames[i].vertices; + for (j = 0; j < header->numTris * 3; j++, normVecptr++, vertVecptr++) + { + VectorRotate(normVecptr, &vectorYaxis, -90.0f); + VectorRotate(vertVecptr, &vectorYaxis, -90.0f); + }*/ + } + } + + free(buffer); + return retModel; +} diff --git a/src/hardware/hw_md2load.h b/src/hardware/hw_md2load.h new file mode 100644 index 00000000..1662d647 --- /dev/null +++ b/src/hardware/hw_md2load.h @@ -0,0 +1,19 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#ifndef _HW_MD2LOAD_H_ +#define _HW_MD2LOAD_H_ + +#include "hw_model.h" +#include "../doomtype.h" + +// Load the Model +model_t *MD2_LoadModel(const char *fileName, int ztag, boolean useFloat); + +#endif diff --git a/src/hardware/hw_md3load.c b/src/hardware/hw_md3load.c new file mode 100644 index 00000000..bac799cd --- /dev/null +++ b/src/hardware/hw_md3load.c @@ -0,0 +1,489 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#include +#include +#include +#include "../doomdef.h" +#include "hw_md3load.h" +#include "hw_model.h" +#include "../z_zone.h" + +typedef struct +{ + int ident; // A "magic number" that's used to identify the .md3 file + int version; // The version of the file, always 15 + char name[64]; + int flags; + int numFrames; // Number of frames + int numTags; + int numSurfaces; + int numSkins; // Number of skins with the model + int offsetFrames; + int offsetTags; + int offsetSurfaces; + int offsetEnd; // Offset, in bytes from the start of the file, to the end of the file (filesize) +} md3modelHeader; + +typedef struct +{ + float minBounds[3]; // First corner of the bounding box + float maxBounds[3]; // Second corner of the bounding box + float localOrigin[3]; // Local origin, usually (0, 0, 0) + float radius; // Radius of bounding sphere + char name[16]; // Name of frame +} md3Frame; + +typedef struct +{ + char name[64]; // Name of tag + float origin[3]; // Coordinates of tag + float axis[9]; // Orientation of tag object +} md3Tag; + +typedef struct +{ + int ident; + char name[64]; // Name of this surface + int flags; + int numFrames; // # of keyframes + int numShaders; // # of shaders + int numVerts; // # of vertices + int numTriangles; // # of triangles + int offsetTriangles; // Relative offset from start of this struct to where the list of Triangles start + int offsetShaders; // Relative offset from start of this struct to where the list of Shaders start + int offsetST; // Relative offset from start of this struct to where the list of tex coords start + int offsetXYZNormal; // Relative offset from start of this struct to where the list of vertices start + int offsetEnd; // Relative offset from start of this struct to where this surface ends +} md3Surface; + +typedef struct +{ + char name[64]; // Name of this shader + int shaderIndex; // Shader index number +} md3Shader; + +typedef struct +{ + int index[3]; // List of offset values into the list of Vertex objects that constitute the corners of the Triangle object. +} md3Triangle; + +typedef struct +{ + float st[2]; +} md3TexCoord; + +typedef struct +{ + short x, y, z, n; +} md3Vertex; + +static float latlnglookup[256][256][3]; + +static void GetNormalFromLatLong(short latlng, float *out) +{ + float *lookup = latlnglookup[(unsigned char)(latlng >> 8)][(unsigned char)(latlng & 255)]; + + out[0] = *lookup++; + out[1] = *lookup++; + out[2] = *lookup++; +} + +static void NormalToLatLng(float *n, short *out) +{ + // Special cases + if (0.0f == n[0] && 0.0f == n[1]) + { + if (n[2] > 0.0f) + *out = 0; + else + *out = 128; + } + else + { + char x, y; + + x = (char)(57.2957795f * (atan2(n[1], n[0])) * (255.0f / 360.0f)); + y = (char)(57.2957795f * (acos(n[2])) * (255.0f / 360.0f)); + + *out = (x << 8) + y; + } +} + +static inline void LatLngToNormal(short n, float *out) +{ + const float PI = (3.1415926535897932384626433832795f); + float lat = (float)(n >> 8); + float lng = (float)(n & 255); + + lat *= PI / 128.0f; + lng *= PI / 128.0f; + + out[0] = cosf(lat) * sinf(lng); + out[1] = sinf(lat) * sinf(lng); + out[2] = cosf(lng); +} + +static void LatLngInit(void) +{ + int i, j; + for (i = 0; i < 256; i++) + { + for (j = 0; j < 256; j++) + LatLngToNormal((short)((i << 8) + j), latlnglookup[i][j]); + } +} + +static bool latlnginit = false; + +model_t *MD3_LoadModel(const char *fileName, int ztag, boolean useFloat) +{ + useFloat = true; // Right now we always useFloat = true, because the GL subsystem needs some work for the other option to work. + + if (!latlnginit) + { + LatLngInit(); + latlnginit = true; + } + + const float WUNITS = 1.0f; + model_t *retModel = NULL; + + FILE *f = fopen(fileName, "rb"); + + if (!f) + return NULL; + + retModel = (model_t*)Z_Calloc(sizeof(model_t), ztag, 0); + + md3modelHeader *mdh; + + // find length of file + fseek(f, 0, SEEK_END); + long fileLen = ftell(f); + fseek(f, 0, SEEK_SET); + + // read in file + char *buffer = malloc(fileLen); + fread(buffer, fileLen, 1, f); + fclose(f); + + // get pointer to file header + mdh = (md3modelHeader*)buffer; + + retModel->numMeshes = mdh->numSurfaces; + + retModel->numMaterials = 0; + int surfEnd = 0; + int i; + for (i = 0; i < mdh->numSurfaces; i++) + { + md3Surface *mdS = (md3Surface*)&buffer[mdh->offsetSurfaces]; + surfEnd += mdS->offsetEnd; + + retModel->numMaterials += mdS->numShaders; + } + + // Initialize materials + if (retModel->numMaterials <= 0) // Always at least one skin, duh + retModel->numMaterials = 1; + + retModel->materials = (material_t*)Z_Calloc(sizeof(material_t)*retModel->numMaterials, ztag, 0); + + int t; + for (t = 0; t < retModel->numMaterials; t++) + { + retModel->materials[t].ambient[0] = 0.3686f; + retModel->materials[t].ambient[1] = 0.3684f; + retModel->materials[t].ambient[2] = 0.3684f; + retModel->materials[t].ambient[3] = 1.0f; + retModel->materials[t].diffuse[0] = 0.8863f; + retModel->materials[t].diffuse[1] = 0.8850f; + retModel->materials[t].diffuse[2] = 0.8850f; + retModel->materials[t].diffuse[3] = 1.0f; + retModel->materials[t].emissive[0] = 0.0f; + retModel->materials[t].emissive[1] = 0.0f; + retModel->materials[t].emissive[2] = 0.0f; + retModel->materials[t].emissive[3] = 1.0f; + retModel->materials[t].specular[0] = 0.4902f; + retModel->materials[t].specular[1] = 0.4887f; + retModel->materials[t].specular[2] = 0.4887f; + retModel->materials[t].specular[3] = 1.0f; + retModel->materials[t].shininess = 25.0f; + retModel->materials[t].spheremap = false; + } + + retModel->meshes = (mesh_t*)Z_Calloc(sizeof(mesh_t)*retModel->numMeshes, ztag, 0); + + int matCount = 0; + for (i = 0, surfEnd = 0; i < mdh->numSurfaces; i++) + { + md3Surface *mdS = (md3Surface*)&buffer[mdh->offsetSurfaces + surfEnd]; + surfEnd += mdS->offsetEnd; + + md3Shader *mdShader = (md3Shader*)((char*)mdS + mdS->offsetShaders); + int j; + for (j = 0; j < mdS->numShaders; j++, matCount++) + { + size_t len = strlen(mdShader[j].name); + mdShader[j].name[len-1] = 'z'; + mdShader[j].name[len-2] = 'u'; + mdShader[j].name[len-3] = 'b'; + + // Load material +/* retModel->materials[matCount].texture = Texture::ReadTexture(mdShader[j].name, ZT_TEXTURE); + + if (!systemSucks) + { + // Check for a normal map...?? + char openfilename[1024]; + char normalMapName[1024]; + strcpy(normalMapName, mdShader[j].name); + len = strlen(normalMapName); + char *ptr = &normalMapName[len]; + ptr--; // z + ptr--; // u + ptr--; // b + ptr--; // . + *ptr++ = '_'; + *ptr++ = 'n'; + *ptr++ = '.'; + *ptr++ = 'b'; + *ptr++ = 'u'; + *ptr++ = 'z'; + *ptr++ = '\0'; + + sprintf(openfilename, "%s/%s", "textures", normalMapName); + // Convert backslashes to forward slashes + for (int k = 0; k < 1024; k++) + { + if (openfilename[k] == '\0') + break; + + if (openfilename[k] == '\\') + openfilename[k] = '/'; + } + + Resource::resource_t *res = Resource::Open(openfilename); + if (res) + { + Resource::Close(res); + retModel->materials[matCount].lightmap = Texture::ReadTexture(normalMapName, ZT_TEXTURE); + } + }*/ + } + + retModel->meshes[i].numFrames = mdS->numFrames; + retModel->meshes[i].numTriangles = mdS->numTriangles; + + if (!useFloat) // 'tinyframe' mode with indices + { + float tempNormal[3]; + retModel->meshes[i].tinyframes = (tinyframe_t*)Z_Calloc(sizeof(tinyframe_t)*mdS->numFrames, ztag, 0); + retModel->meshes[i].numVertices = mdS->numVerts; + retModel->meshes[i].uvs = (float*)Z_Malloc(sizeof(float)*2*mdS->numVerts, ztag, 0); + for (j = 0; j < mdS->numFrames; j++) + { + md3Vertex *mdV = (md3Vertex*)((char*)mdS + mdS->offsetXYZNormal + (mdS->numVerts*j*sizeof(md3Vertex))); + retModel->meshes[i].tinyframes[j].vertices = (short*)Z_Malloc(sizeof(short)*3*mdS->numVerts, ztag, 0); + retModel->meshes[i].tinyframes[j].normals = (char*)Z_Malloc(sizeof(char)*3*mdS->numVerts, ztag, 0); + +// if (retModel->materials[0].lightmap) +// retModel->meshes[i].tinyframes[j].tangents = (char*)malloc(sizeof(char));//(char*)Z_Malloc(sizeof(char)*3*mdS->numVerts, ztag); + retModel->meshes[i].indices = (unsigned short*)Z_Malloc(sizeof(unsigned short) * 3 * mdS->numTriangles, ztag, 0); + short *vertptr = retModel->meshes[i].tinyframes[j].vertices; + char *normptr = retModel->meshes[i].tinyframes[j].normals; + +// char *tanptr = retModel->meshes[i].tinyframes[j].tangents; + retModel->meshes[i].tinyframes[j].material = &retModel->materials[i]; + + int k; + for (k = 0; k < mdS->numVerts; k++) + { + // Vertex + *vertptr = mdV[k].y; + vertptr++; + *vertptr = mdV[k].z; + vertptr++; + *vertptr = mdV[k].x; + vertptr++; + + // Normal + GetNormalFromLatLong(mdV[k].n, tempNormal); + *normptr = (byte)(tempNormal[1] * 127); + normptr++; + *normptr = (byte)(tempNormal[2] * 127); + normptr++; + *normptr = (byte)(tempNormal[0] * 127); + normptr++; + } + } + + float *uvptr = (float*)retModel->meshes[i].uvs; + md3TexCoord *mdST = (md3TexCoord*)((char*)mdS + mdS->offsetST); + for (j = 0; j < mdS->numVerts; j++) + { + *uvptr = mdST[j].st[0]; + uvptr++; + *uvptr = 1.0f - mdST[j].st[1]; + uvptr++; + } + + unsigned short *indexptr = retModel->meshes[i].indices; + md3Triangle *mdT = (md3Triangle*)((char*)mdS + mdS->offsetTriangles); + for (j = 0; j < mdS->numTriangles; j++, mdT++) + { + // Indices + *indexptr = (unsigned short)mdT->index[0]; + indexptr++; + *indexptr = (unsigned short)mdT->index[2]; + indexptr++; + *indexptr = (unsigned short)mdT->index[1]; + indexptr++; + } + } + else // Traditional full-float loading method + { + retModel->meshes[i].numVertices = mdS->numTriangles * 3;//mdS->numVerts; + float dataScale = 0.015624f * WUNITS; + float tempNormal[3]; + retModel->meshes[i].frames = (mdlframe_t*)Z_Calloc(sizeof(mdlframe_t)*mdS->numFrames, ztag, 0); + retModel->meshes[i].uvs = (float*)Z_Malloc(sizeof(float)*2*mdS->numTriangles*3, ztag, 0); + + for (j = 0; j < mdS->numFrames; j++) + { + md3Vertex *mdV = (md3Vertex*)((char*)mdS + mdS->offsetXYZNormal + (mdS->numVerts*j*sizeof(md3Vertex))); + retModel->meshes[i].frames[j].vertices = (float*)Z_Malloc(sizeof(float)*3*mdS->numTriangles*3, ztag, 0); + retModel->meshes[i].frames[j].normals = (float*)Z_Malloc(sizeof(float)*3*mdS->numTriangles*3, ztag, 0); +// if (retModel->materials[i].lightmap) +// retModel->meshes[i].frames[j].tangents = (float*)malloc(sizeof(float));//(float*)Z_Malloc(sizeof(float)*3*mdS->numTriangles*3, ztag); + float *vertptr = retModel->meshes[i].frames[j].vertices; + float *normptr = retModel->meshes[i].frames[j].normals; + retModel->meshes[i].frames[j].material = &retModel->materials[i]; + + int k; + md3Triangle *mdT = (md3Triangle*)((char*)mdS + mdS->offsetTriangles); + + for (k = 0; k < mdS->numTriangles; k++) + { + // Vertex 1 + *vertptr = mdV[mdT->index[0]].x * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[0]].z * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[0]].y * dataScale; + vertptr++; + + GetNormalFromLatLong(mdV[mdT->index[0]].n, tempNormal); + *normptr = tempNormal[1]; + normptr++; + *normptr = tempNormal[2]; + normptr++; + *normptr = tempNormal[0]; + normptr++; + + // Vertex 2 + *vertptr = mdV[mdT->index[2]].x * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[2]].z * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[2]].y * dataScale; + vertptr++; + + GetNormalFromLatLong(mdV[mdT->index[2]].n, tempNormal); + *normptr = tempNormal[1]; + normptr++; + *normptr = tempNormal[2]; + normptr++; + *normptr = tempNormal[0]; + normptr++; + + // Vertex 3 + *vertptr = mdV[mdT->index[1]].x * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[1]].z * dataScale; + vertptr++; + *vertptr = mdV[mdT->index[1]].y * dataScale; + vertptr++; + + GetNormalFromLatLong(mdV[mdT->index[1]].n, tempNormal); + *normptr = tempNormal[1]; + normptr++; + *normptr = tempNormal[2]; + normptr++; + *normptr = tempNormal[0]; + normptr++; + + mdT++; // Advance to next triangle + } + } + + md3TexCoord *mdST = (md3TexCoord*)((char*)mdS + mdS->offsetST); + float *uvptr = (float*)retModel->meshes[i].uvs; + int k; + md3Triangle *mdT = (md3Triangle*)((char*)mdS + mdS->offsetTriangles); + + for (k = 0; k < mdS->numTriangles; k++) + { + *uvptr = mdST[mdT->index[0]].st[0]; + uvptr++; + *uvptr = mdST[mdT->index[0]].st[1]; + uvptr++; + + *uvptr = mdST[mdT->index[2]].st[0]; + uvptr++; + *uvptr = mdST[mdT->index[2]].st[1]; + uvptr++; + + *uvptr = mdST[mdT->index[1]].st[0]; + uvptr++; + *uvptr = mdST[mdT->index[1]].st[1]; + uvptr++; + + mdT++; // Advance to next triangle + } + } + } + /* + // Tags? + retModel->numTags = mdh->numTags; + retModel->maxNumFrames = mdh->numFrames; + retModel->tags = (tag_t*)Z_Calloc(sizeof(tag_t) * retModel->numTags * mdh->numFrames, ztag); + md3Tag *mdTag = (md3Tag*)&buffer[mdh->offsetTags]; + tag_t *curTag = retModel->tags; + for (i = 0; i < mdh->numFrames; i++) + { + int j; + for (j = 0; j < retModel->numTags; j++, mdTag++) + { + strcpys(curTag->name, mdTag->name, sizeof(curTag->name) / sizeof(char)); + curTag->transform.m[0][0] = mdTag->axis[0]; + curTag->transform.m[0][1] = mdTag->axis[1]; + curTag->transform.m[0][2] = mdTag->axis[2]; + curTag->transform.m[1][0] = mdTag->axis[3]; + curTag->transform.m[1][1] = mdTag->axis[4]; + curTag->transform.m[1][2] = mdTag->axis[5]; + curTag->transform.m[2][0] = mdTag->axis[6]; + curTag->transform.m[2][1] = mdTag->axis[7]; + curTag->transform.m[2][2] = mdTag->axis[8]; + curTag->transform.m[3][0] = mdTag->origin[0] * WUNITS; + curTag->transform.m[3][1] = mdTag->origin[1] * WUNITS; + curTag->transform.m[3][2] = mdTag->origin[2] * WUNITS; + curTag->transform.m[3][3] = 1.0f; + + Matrix::Rotate(&curTag->transform, 90.0f, &Vector::Xaxis); + curTag++; + } + }*/ + + + free(buffer); + + return retModel; +} diff --git a/src/hardware/hw_md3load.h b/src/hardware/hw_md3load.h new file mode 100644 index 00000000..c0e0522f --- /dev/null +++ b/src/hardware/hw_md3load.h @@ -0,0 +1,19 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#ifndef _HW_MD3LOAD_H_ +#define _HW_MD3LOAD_H_ + +#include "hw_model.h" +#include "../doomtype.h" + +// Load the Model +model_t *MD3_LoadModel(const char *fileName, int ztag, boolean useFloat); + +#endif diff --git a/src/hardware/hw_model.c b/src/hardware/hw_model.c new file mode 100644 index 00000000..73b2b484 --- /dev/null +++ b/src/hardware/hw_model.c @@ -0,0 +1,706 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#include "../z_zone.h" +#include "../doomdef.h" +#include "hw_model.h" +#include "hw_md2load.h" +#include "hw_md3load.h" +#include "u_list.h" +#include + +static float PI = (3.1415926535897932384626433832795f); +float U_Deg2Rad(float deg) +{ + return deg * ((float)PI / 180.0f); +} + +vector_t vectorXaxis = { 1.0f, 0.0f, 0.0f }; +vector_t vectorYaxis = { 0.0f, 1.0f, 0.0f }; +vector_t vectorZaxis = { 0.0f, 0.0f, 1.0f }; + +void VectorRotate(vector_t *rotVec, const vector_t *axisVec, float angle) +{ + angle = U_Deg2Rad(angle); + + // Rotate the point (x,y,z) around the vector (u,v,w) + float ux = axisVec->x * rotVec->x; + float uy = axisVec->x * rotVec->y; + float uz = axisVec->x * rotVec->z; + float vx = axisVec->y * rotVec->x; + float vy = axisVec->y * rotVec->y; + float vz = axisVec->y * rotVec->z; + float wx = axisVec->z * rotVec->x; + float wy = axisVec->z * rotVec->y; + float wz = axisVec->z * rotVec->z; + float sa = sinf(angle); + float ca = cosf(angle); + + rotVec->x = axisVec->x*(ux + vy + wz) + (rotVec->x*(axisVec->y*axisVec->y + axisVec->z*axisVec->z) - axisVec->x*(vy + wz))*ca + (-wy + vz)*sa; + rotVec->y = axisVec->y*(ux + vy + wz) + (rotVec->y*(axisVec->x*axisVec->x + axisVec->z*axisVec->z) - axisVec->y*(ux + wz))*ca + (wx - uz)*sa; + rotVec->z = axisVec->z*(ux + vy + wz) + (rotVec->z*(axisVec->x*axisVec->x + axisVec->y*axisVec->y) - axisVec->z*(ux + vy))*ca + (-vx + uy)*sa; +} + +void CreateVBOTiny(mesh_t *mesh, tinyframe_t *frame) +{ + return; +/* int bufferSize = sizeof(VBO::vbotiny_t)*mesh->numTriangles*3; + VBO::vbotiny_t *buffer = (VBO::vbotiny_t*)Z_Malloc(bufferSize, PU_STATIC, 0); + VBO::vbotiny_t *bufPtr = buffer; + + short *vertPtr = frame->vertices; + char *normPtr = frame->normals; + float *uvPtr = mesh->uvs; + char *tanPtr = frame->tangents; + + int i; + for (i = 0; i < mesh->numTriangles*3; i++) + { + bufPtr->x = *vertPtr++; + bufPtr->y = *vertPtr++; + bufPtr->z = *vertPtr++; + + bufPtr->nx = (*normPtr++) * 127; + bufPtr->ny = (*normPtr++) * 127; + bufPtr->nz = (*normPtr++) * 127; + + bufPtr->s0 = *uvPtr++; + bufPtr->t0 = *uvPtr++; + + if (tanPtr) + { + bufPtr->tanx = *tanPtr++; + bufPtr->tany = *tanPtr++; + bufPtr->tanz = *tanPtr++; + } + + bufPtr++; + } + + bglGenBuffers(1, &frame->vboID); + bglBindBuffer(BGL_ARRAY_BUFFER, frame->vboID); + bglBufferData(BGL_ARRAY_BUFFER, bufferSize, buffer, BGL_STATIC_DRAW); + Z_Free(buffer);*/ +} + +void CreateVBO(mesh_t *mesh, mdlframe_t *frame) +{ + return; +/* int bufferSize = sizeof(VBO::vbo64_t)*mesh->numTriangles*3; + VBO::vbo64_t *buffer = (VBO::vbo64_t*)Z_Malloc(bufferSize, PU_STATIC, 0); + VBO::vbo64_t *bufPtr = buffer; + + float *vertPtr = frame->vertices; + float *normPtr = frame->normals; + float *tanPtr = frame->tangents; + float *uvPtr = mesh->uvs; + float *lightPtr = mesh->lightuvs; + byte *colorPtr = frame->colors; + + int i; + for (i = 0; i < mesh->numTriangles*3; i++) + { + bufPtr->x = *vertPtr++; + bufPtr->y = *vertPtr++; + bufPtr->z = *vertPtr++; + + bufPtr->nx = *normPtr++; + bufPtr->ny = *normPtr++; + bufPtr->nz = *normPtr++; + + bufPtr->s0 = *uvPtr++; + bufPtr->t0 = *uvPtr++; + + if (tanPtr != NULL) + { + bufPtr->tan0 = *tanPtr++; + bufPtr->tan1 = *tanPtr++; + bufPtr->tan2 = *tanPtr++; + } + + if (lightPtr != NULL) + { + bufPtr->s1 = *lightPtr++; + bufPtr->t1 = *lightPtr++; + } + + if (colorPtr) + { + bufPtr->r = *colorPtr++; + bufPtr->g = *colorPtr++; + bufPtr->b = *colorPtr++; + bufPtr->a = *colorPtr++; + } + else + { + bufPtr->r = 255; + bufPtr->g = 255; + bufPtr->b = 255; + bufPtr->a = 255; + } + + bufPtr++; + } + + bglGenBuffers(1, &frame->vboID); + bglBindBuffer(BGL_ARRAY_BUFFER, frame->vboID); + bglBufferData(BGL_ARRAY_BUFFER, bufferSize, buffer, BGL_STATIC_DRAW); + Z_Free(buffer);*/ +} + +void UnloadModel(model_t *model) +{ + // Wouldn't it be great if C just had destructors? + int i; + for (i = 0; i < model->numMeshes; i++) + { + mesh_t *mesh = &model->meshes[i]; + + if (mesh->frames) + { + int j; + for (j = 0; j < mesh->numFrames; j++) + { + if (mesh->frames[j].normals) + Z_Free(mesh->frames[j].normals); + + if (mesh->frames[j].tangents) + Z_Free(mesh->frames[j].tangents); + + if (mesh->frames[j].vertices) + Z_Free(mesh->frames[j].vertices); + + if (mesh->frames[j].colors) + Z_Free(mesh->frames[j].colors); + } + + Z_Free(mesh->frames); + } + else if (mesh->tinyframes) + { + int j; + for (j = 0; j < mesh->numFrames; j++) + { + if (mesh->tinyframes[j].normals) + Z_Free(mesh->tinyframes[j].normals); + + if (mesh->tinyframes[j].tangents) + Z_Free(mesh->tinyframes[j].tangents); + + if (mesh->tinyframes[j].vertices) + Z_Free(mesh->tinyframes[j].vertices); + } + + if (mesh->indices) + Z_Free(mesh->indices); + + Z_Free(mesh->tinyframes); + } + + if (mesh->uvs) + Z_Free(mesh->uvs); + + if (mesh->lightuvs) + Z_Free(mesh->lightuvs); + } + + if (model->meshes) + Z_Free(model->meshes); + + if (model->tags) + Z_Free(model->tags); + + if (model->materials) + Z_Free(model->materials); + + DeleteVBOs(model); + Z_Free(model); +} + +tag_t *GetTagByName(model_t *model, char *name, int frame) +{ + if (frame < model->maxNumFrames) + { + tag_t *iterator = &model->tags[frame * model->numTags]; + + int i; + for (i = 0; i < model->numTags; i++) + { + if (!stricmp(iterator[i].name, name)) + return &iterator[i]; + } + } + + return NULL; +} + +// +// LoadModel +// +// Load a model and +// convert it to the +// internal format. +// +model_t *LoadModel(const char *filename, int ztag) +{ + model_t *model; + + // What type of file? + const char *extension = NULL; + int i; + for (i = (int)strlen(filename)-1; i >= 0; i--) + { + if (filename[i] != '.') + continue; + + extension = &filename[i]; + break; + } + + if (!extension) + { + CONS_Printf("Model %s is lacking a file extension, unable to determine type!\n", filename); + return NULL; + } + + if (!strcmp(extension, ".md3")) + { + if (!(model = MD3_LoadModel(filename, ztag, false))) + return NULL; + } + else if (!strcmp(extension, ".md3s")) // MD3 that will be converted in memory to use full floats + { + if (!(model = MD3_LoadModel(filename, ztag, true))) + return NULL; + } + else if (!strcmp(extension, ".md2")) + { + if (!(model = MD2_LoadModel(filename, ztag, false))) + return NULL; + } + else if (!strcmp(extension, ".md2s")) + { + if (!(model = MD2_LoadModel(filename, ztag, true))) + return NULL; + } + else + { + CONS_Printf("Unknown model format: %s\n", extension); + return NULL; + } + + model->mdlFilename = (char*)Z_Malloc(strlen(filename)+1, ztag, 0); + strcpy(model->mdlFilename, filename); + + Optimize(model); + GeneratePolygonNormals(model, ztag); + + // Default material properties + for (i = 0 ; i < model->numMaterials; i++) + { + material_t *material = &model->materials[i]; + material->ambient[0] = 0.7686f; + material->ambient[1] = 0.7686f; + material->ambient[2] = 0.7686f; + material->ambient[3] = 1.0f; + material->diffuse[0] = 0.5863f; + material->diffuse[1] = 0.5863f; + material->diffuse[2] = 0.5863f; + material->diffuse[3] = 1.0f; + material->specular[0] = 0.4902f; + material->specular[1] = 0.4902f; + material->specular[2] = 0.4902f; + material->specular[3] = 1.0f; + material->shininess = 25.0f; + } + + CONS_Printf("Generating VBOs for %s\n", filename); + for (i = 0; i < model->numMeshes; i++) + { + mesh_t *mesh = &model->meshes[i]; + + if (mesh->frames) + { + int j; + for (j = 0; j < model->meshes[i].numFrames; j++) + { + mdlframe_t *frame = &mesh->frames[j]; + frame->vboID = 0; + CreateVBO(mesh, frame); + } + } + else if (mesh->tinyframes) + { + int j; + for (j = 0; j < model->meshes[i].numFrames; j++) + { + tinyframe_t *frame = &mesh->tinyframes[j]; + frame->vboID = 0; + CreateVBOTiny(mesh, frame); + } + } + } + + return model; +} + +// +// GenerateVertexNormals +// +// Creates a new normal for a vertex using the average of all of the polygons it belongs to. +// +void GenerateVertexNormals(model_t *model) +{ + int i; + for (i = 0; i < model->numMeshes; i++) + { + mesh_t *mesh = &model->meshes[i]; + + if (!mesh->frames) + continue; + + int j; + for (j = 0; j < mesh->numFrames; j++) + { + mdlframe_t *frame = &mesh->frames[j]; + int memTag = PU_STATIC; + float *newNormals = (float*)Z_Malloc(sizeof(float)*3*mesh->numTriangles*3, memTag, 0); + M_Memcpy(newNormals, frame->normals, sizeof(float)*3*mesh->numTriangles*3); + +/* if (!systemSucks) + { + memTag = Z_GetTag(frame->tangents); + float *newTangents = (float*)Z_Malloc(sizeof(float)*3*mesh->numTriangles*3, memTag); + M_Memcpy(newTangents, frame->tangents, sizeof(float)*3*mesh->numTriangles*3); + }*/ + + int k; + float *vertPtr = frame->vertices; + for (k = 0; k < mesh->numVertices; k++) + { + float x, y, z; + x = *vertPtr++; + y = *vertPtr++; + z = *vertPtr++; + + int vCount = 0; + vector_t normal; + normal.x = normal.y = normal.z = 0; + int l; + float *testPtr = frame->vertices; + for (l = 0; l < mesh->numVertices; l++) + { + float testX, testY, testZ; + testX = *testPtr++; + testY = *testPtr++; + testZ = *testPtr++; + + if (x != testX || y != testY || z != testZ) + continue; + + // Found a vertex match! Add it... + normal.x += frame->normals[3 * l + 0]; + normal.y += frame->normals[3 * l + 1]; + normal.z += frame->normals[3 * l + 2]; + vCount++; + } + + if (vCount > 1) + { +// Vector::Normalize(&normal); + newNormals[3 * k + 0] = (float)normal.x; + newNormals[3 * k + 1] = (float)normal.y; + newNormals[3 * k + 2] = (float)normal.z; + +/* if (!systemSucks) + { + Vector::vector_t tangent; + Vector::Tangent(&normal, &tangent); + newTangents[3 * k + 0] = tangent.x; + newTangents[3 * k + 1] = tangent.y; + newTangents[3 * k + 2] = tangent.z; + }*/ + } + } + + float *oldNormals = frame->normals; + frame->normals = newNormals; + Z_Free(oldNormals); + +/* if (!systemSucks) + { + float *oldTangents = frame->tangents; + frame->tangents = newTangents; + Z_Free(oldTangents); + }*/ + } + } +} + +typedef struct materiallist_s +{ + struct materiallist_s *next; + struct materiallist_s *prev; + material_t *material; +} materiallist_t; + +static bool AddMaterialToList(materiallist_t **head, material_t *material) +{ + materiallist_t *node; + for (node = *head; node; node = node->next) + { + if (node->material == material) + return false; + } + + // Didn't find it, so add to the list + materiallist_t *newMatNode = (materiallist_t*)Z_Malloc(sizeof(materiallist_t), PU_CACHE, 0); + newMatNode->material = material; + ListAdd(newMatNode, (listitem_t**)head); + return true; +} + +// +// Optimize +// +// Groups triangles from meshes in the model +// Only works for models with 1 frame +// +void Optimize(model_t *model) +{ + if (model->numMeshes <= 1) + return; // No need + + int numMeshes = 0; + int i; + materiallist_t *matListHead = NULL; + for (i = 0; i < model->numMeshes; i++) + { + mesh_t *curMesh = &model->meshes[i]; + + if (curMesh->numFrames > 1) + return; // Can't optimize models with > 1 frame + + if (!curMesh->frames) + return; // Don't optimize tinyframe models (no need) + + // We are condensing to 1 mesh per material, so + // the # of materials we use will be the new + // # of meshes + if (AddMaterialToList(&matListHead, curMesh->frames[0].material)) + numMeshes++; + } + + int memTag = PU_STATIC; + mesh_t *newMeshes = (mesh_t*)Z_Calloc(sizeof(mesh_t) * numMeshes, memTag, 0); + + i = 0; + materiallist_t *node; + for (node = matListHead; node; node = node->next) + { + material_t *curMat = node->material; + mesh_t *newMesh = &newMeshes[i]; + + // Find all triangles with this material and count them + int numTriangles = 0; + int j; + for (j = 0; j < model->numMeshes; j++) + { + mesh_t *curMesh = &model->meshes[j]; + + if (curMesh->frames[0].material == curMat) + numTriangles += curMesh->numTriangles; + } + + newMesh->numFrames = 1; + newMesh->numTriangles = numTriangles; + newMesh->numVertices = numTriangles * 3; + newMesh->uvs = (float*)Z_Malloc(sizeof(float)*2*numTriangles*3, memTag, 0); +// if (node->material->lightmap) +// newMesh->lightuvs = (float*)Z_Malloc(sizeof(float)*2*numTriangles*3, memTag, 0); + newMesh->frames = (mdlframe_t*)Z_Calloc(sizeof(mdlframe_t), memTag, 0); + mdlframe_t *curFrame = &newMesh->frames[0]; + + curFrame->material = curMat; + curFrame->normals = (float*)Z_Malloc(sizeof(float)*3*numTriangles*3, memTag, 0); +// if (!systemSucks) +// curFrame->tangents = (float*)Z_Malloc(sizeof(float)*3*numTriangles*3, memTag, 0); + curFrame->vertices = (float*)Z_Malloc(sizeof(float)*3*numTriangles*3, memTag, 0); + curFrame->colors = (byte*)Z_Malloc(sizeof(byte)*4*numTriangles*3, memTag, 0); + + // Now traverse the meshes of the model, adding in + // vertices/normals/uvs that match the current material + int uvCount = 0; + int vertCount = 0; + int colorCount = 0; + for (j = 0; j < model->numMeshes; j++) + { + mesh_t *curMesh = &model->meshes[j]; + + if (curMesh->frames[0].material == curMat) + { + float *dest; + float *src; + + M_Memcpy(&newMesh->uvs[uvCount], + curMesh->uvs, + sizeof(float)*2*curMesh->numTriangles*3); + +/* if (node->material->lightmap) + { + M_Memcpy(&newMesh->lightuvs[uvCount], + curMesh->lightuvs, + sizeof(float)*2*curMesh->numTriangles*3); + }*/ + uvCount += 2*curMesh->numTriangles*3; + + dest = (float*)newMesh->frames[0].vertices; + src = (float*)curMesh->frames[0].vertices; + M_Memcpy(&dest[vertCount], + src, + sizeof(float)*3*curMesh->numTriangles*3); + + dest = (float*)newMesh->frames[0].normals; + src = (float*)curMesh->frames[0].normals; + M_Memcpy(&dest[vertCount], + src, + sizeof(float)*3*curMesh->numTriangles*3); + +/* if (!systemSucks) + { + dest = (float*)newMesh->frames[0].tangents; + src = (float*)curMesh->frames[0].tangents; + M_Memcpy(&dest[vertCount], + src, + sizeof(float)*3*curMesh->numTriangles*3); + }*/ + + vertCount += 3 * curMesh->numTriangles * 3; + + byte *destByte; + byte *srcByte; + destByte = (byte*)newMesh->frames[0].colors; + srcByte = (byte*)curMesh->frames[0].colors; + + if (srcByte) + { + M_Memcpy(&destByte[colorCount], + srcByte, + sizeof(byte)*4*curMesh->numTriangles*3); + } + else + { + memset(&destByte[colorCount], + 255, + sizeof(byte)*4*curMesh->numTriangles*3); + } + + colorCount += 4 * curMesh->numTriangles * 3; + } + } + + i++; + } + + CONS_Printf("Model::Optimize(): Model reduced from %d to %d meshes.\n", model->numMeshes, numMeshes); + model->meshes = newMeshes; + model->numMeshes = numMeshes; +} + +void GeneratePolygonNormals(model_t *model, int ztag) +{ + int i; + for (i = 0; i < model->numMeshes; i++) + { + mesh_t *mesh = &model->meshes[i]; + + if (!mesh->frames) + continue; + + int j; + for (j = 0; j < mesh->numFrames; j++) + { + mdlframe_t *frame = &mesh->frames[j]; + + frame->polyNormals = (vector_t*)Z_Malloc(sizeof(vector_t) * mesh->numTriangles, ztag, 0); + + const float *vertices = frame->vertices; + vector_t *polyNormals = frame->polyNormals; + int k; + for (k = 0; k < mesh->numTriangles; k++) + { +// Vector::Normal(vertices, polyNormals); + vertices += 3 * 3; + polyNormals++; + } + } + } +} + +// +// Reload +// +// Reload VBOs +// +void Reload(void) +{ +/* model_t *node; + for (node = modelHead; node; node = node->next) + { + int i; + for (i = 0; i < node->numMeshes; i++) + { + mesh_t *mesh = &node->meshes[i]; + + if (mesh->frames) + { + int j; + for (j = 0; j < mesh->numFrames; j++) + CreateVBO(mesh, &mesh->frames[j]); + } + else if (mesh->tinyframes) + { + int j; + for (j = 0; j < mesh->numFrames; j++) + CreateVBO(mesh, &mesh->tinyframes[j]); + } + } + }*/ +} + +void DeleteVBOs(model_t *model) +{ +/* for (int i = 0; i < model->numMeshes; i++) + { + mesh_t *mesh = &model->meshes[i]; + + if (mesh->frames) + { + for (int j = 0; j < mesh->numFrames; j++) + { + mdlframe_t *frame = &mesh->frames[j]; + if (!frame->vboID) + continue; + bglDeleteBuffers(1, &frame->vboID); + frame->vboID = 0; + } + } + else if (mesh->tinyframes) + { + for (int j = 0; j < mesh->numFrames; j++) + { + tinyframe_t *frame = &mesh->tinyframes[j]; + if (!frame->vboID) + continue; + bglDeleteBuffers(1, &frame->vboID); + frame->vboID = 0; + } + } + }*/ +} diff --git a/src/hardware/hw_model.h b/src/hardware/hw_model.h new file mode 100644 index 00000000..ed7e41a5 --- /dev/null +++ b/src/hardware/hw_model.h @@ -0,0 +1,104 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#ifndef _HW_MODEL_H_ +#define _HW_MODEL_H_ + +#include "../doomtype.h" + +typedef struct +{ + float x, y, z; +} vector_t; + +extern vector_t vectorXaxis; +extern vector_t vectorYaxis; +extern vector_t vectorZaxis; + +void VectorRotate(vector_t *rotVec, const vector_t *axisVec, float angle); + +typedef struct +{ + float ambient[4], diffuse[4], specular[4], emissive[4]; + float shininess; + bool spheremap; +// Texture::texture_t *texture; +// Texture::texture_t *lightmap; +} material_t; + +typedef struct +{ + material_t *material; // Pointer to the allocated 'materials' list in model_t + float *vertices; + float *normals; + float *tangents; + byte *colors; + unsigned int vboID; + vector_t *polyNormals; +} mdlframe_t; + +typedef struct +{ + material_t *material; + short *vertices; + char *normals; + char *tangents; + unsigned int vboID; +} tinyframe_t; + +// Equivalent to MD3's many 'surfaces' +typedef struct mesh_s +{ + int numVertices; + int numTriangles; + + float *uvs; + float *lightuvs; + + int numFrames; + mdlframe_t *frames; + tinyframe_t *tinyframes; + unsigned short *indices; +} mesh_t; + +typedef struct tag_s +{ + char name[64]; +// matrix_t transform; +} tag_t; + +typedef struct model_s +{ + int maxNumFrames; + + int numMaterials; + material_t *materials; + int numMeshes; + mesh_t *meshes; + int numTags; + tag_t *tags; + + char *mdlFilename; + boolean unloaded; +} model_t; + +extern int numModels; +extern model_t *modelHead; + +tag_t *GetTagByName(model_t *model, char *name, int frame); +model_t *LoadModel(const char *filename, int ztag); +void UnloadModel(model_t *model); +void Optimize(model_t *model); +void GenerateVertexNormals(model_t *model); +void GeneratePolygonNormals(model_t *model, int ztag); +void CreateVBOTiny(mesh_t *mesh, tinyframe_t *frame); +void CreateVBO(mesh_t *mesh, mdlframe_t *frame); +void DeleteVBOs(model_t *model); + +#endif diff --git a/src/hardware/r_opengl/r_opengl.c b/src/hardware/r_opengl/r_opengl.c index 91578e7f..f8b324ed 100644 --- a/src/hardware/r_opengl/r_opengl.c +++ b/src/hardware/r_opengl/r_opengl.c @@ -245,6 +245,12 @@ FUNCPRINTF void DBG_Printf(const char *lpFmt, ...) #define pglColor4f glColor4f #define pglColor4fv glColor4fv #define pglTexCoord2f glTexCoord2f +#define pglVertexPointer glVertexPointer +#define pglNormalPointer glNormalPointer +#define pglTexCoordPointer glTexCoordPointer +#define pglDrawArrays glDrawArrays +#define pglEnableClientState glEnableClientState +#define pglDisableClientState pglDisableClientState /* Lighting */ #define pglShadeModel glShadeModel @@ -357,6 +363,18 @@ typedef void (APIENTRY * PFNglColor4fv) (const GLfloat *v); static PFNglColor4fv pglColor4fv; typedef void (APIENTRY * PFNglTexCoord2f) (GLfloat s, GLfloat t); static PFNglTexCoord2f pglTexCoord2f; +typedef void (APIENTRY * PFNglVertexPointer) (GLint size, GLenum type, GLsizei stride, const GLvoid *pointer); +static PFNglVertexPointer pglVertexPointer; +typedef void (APIENTRY * PFNglNormalPointer) (GLenum type, GLsizei stride, const GLvoid *pointer); +static PFNglNormalPointer pglNormalPointer; +typedef void (APIENTRY * PFNglTexCoordPointer) (GLint size, GLenum type, GLsizei stride, const GLvoid *pointer); +static PFNglTexCoordPointer pglTexCoordPointer; +typedef void (APIENTRY * PFNglDrawArrays) (GLenum mode, GLint first, GLsizei count); +static PFNglDrawArrays pglDrawArrays; +typedef void (APIENTRY * PFNglEnableClientState) (GLenum cap); +static PFNglEnableClientState pglEnableClientState; +typedef void (APIENTRY * PFNglDisableClientState) (GLenum cap); +static PFNglDisableClientState pglDisableClientState; /* Lighting */ typedef void (APIENTRY * PFNglShadeModel) (GLenum mode); @@ -495,6 +513,12 @@ boolean SetupGLfunc(void) GETOPENGLFUNC(pglColor4f , glColor4f) GETOPENGLFUNC(pglColor4fv , glColor4fv) GETOPENGLFUNC(pglTexCoord2f , glTexCoord2f) + GETOPENGLFUNC(pglVertexPointer, glVertexPointer) + GETOPENGLFUNC(pglNormalPointer, glNormalPointer) + GETOPENGLFUNC(pglTexCoordPointer, glTexCoordPointer) + GETOPENGLFUNC(pglDrawArrays, glDrawArrays) + GETOPENGLFUNC(pglEnableClientState, glEnableClientState) + GETOPENGLFUNC(pglDisableClientState, glDisableClientState) GETOPENGLFUNC(pglShadeModel , glShadeModel) GETOPENGLFUNC(pglLightfv, glLightfv) @@ -1878,14 +1902,15 @@ EXPORT void HWRAPI(SetSpecialState) (hwdspecialstate_t IdState, INT32 Value) } } -static void DrawMD2Ex(INT32 *gl_cmd_buffer, md2_frame_t *frame, INT32 duration, INT32 tics, md2_frame_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color) -{ +static void DrawModelEx(model_t *model, mdlframe_t *frame, INT32 duration, INT32 tics, mdlframe_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color) +{ INT32 val, count, pindex; GLfloat s, t; GLfloat ambient[4]; GLfloat diffuse[4]; float pol = 0.0f; + scale *= 0.5f; float scalex = scale, scaley = scale, scalez = scale; // Because Otherwise, scaling the screen negatively vertically breaks the lighting @@ -1966,68 +1991,107 @@ static void DrawMD2Ex(INT32 *gl_cmd_buffer, md2_frame_t *frame, INT32 duration, pglRotatef(pos->anglex, -1.0f, 0.0f, 0.0f); pglRotatef(pos->angley, 0.0f, -1.0f, 0.0f); - val = *gl_cmd_buffer++; + pglScalef(scalex, scaley, scalez); - while (val != 0) + mesh_t *mesh = &model->meshes[0]; + + if (!nextframe || pol == 0.0f) { - if (val < 0) + // Zoom! Take advantage of just shoving the entire arrays to the GPU. + pglEnableClientState(GL_VERTEX_ARRAY); + pglEnableClientState(GL_TEXTURE_COORD_ARRAY); + pglEnableClientState(GL_NORMAL_ARRAY); + pglVertexPointer(3, GL_FLOAT, 0, frame->vertices); + pglNormalPointer(GL_FLOAT, 0, frame->normals); + pglTexCoordPointer(2, GL_FLOAT, 0, mesh->uvs); + pglDrawArrays(GL_TRIANGLES, 0, mesh->numTriangles * 3); + pglDisableClientState(GL_NORMAL_ARRAY); + pglDisableClientState(GL_TEXTURE_COORD_ARRAY); + pglDisableClientState(GL_TEXTURE_COORD_ARRAY); + /* + pglBegin(GL_TRIANGLES); + + int i = 0; + float *uvPtr = mesh->uvs; + float *frameVert = frame->vertices; + float *frameNormal = frame->normals; + for (i = 0; i < mesh->numTriangles; i++) { - pglBegin(GL_TRIANGLE_FAN); - count = -val; - } - else - { - pglBegin(GL_TRIANGLE_STRIP); - count = val; + float uvx = *uvPtr++; + float uvy = *uvPtr++; + + // Interpolate + float px1 = *frameVert++; + float py1 = *frameVert++; + float pz1 = *frameVert++; + float nx1 = *frameNormal++; + float ny1 = *frameNormal++; + float nz1 = *frameNormal++; + + pglTexCoord2f(uvx, uvy); + pglNormal3f(nx1, ny1, nz1); + pglVertex3f(px1, py1, pz1); } - while (count--) + pglEnd();*/ + } + else + { + // Dangit, I soooo want to do this in a GLSL shader... + pglBegin(GL_TRIANGLES); + + int i = 0; + float *uvPtr = mesh->uvs; + float *frameVert = frame->vertices; + float *frameNormal = frame->normals; + float *nextFrameVert = nextframe->vertices; + float *nextFrameNormal = frame->normals; + for (i = 0; i < mesh->numTriangles; i++) { - s = *(float *) gl_cmd_buffer++; - t = *(float *) gl_cmd_buffer++; - pindex = *gl_cmd_buffer++; + float uvx = *uvPtr++; + float uvy = *uvPtr++; - pglTexCoord2f(s, t); + // Interpolate + float px1 = *frameVert++; + float px2 = *nextFrameVert++; + float py1 = *frameVert++; + float py2 = *nextFrameVert++; + float pz1 = *frameVert++; + float pz2 = *nextFrameVert++; + float nx1 = *frameNormal++; + float nx2 = *nextFrameNormal++; + float ny1 = *frameNormal++; + float ny2 = *nextFrameNormal++; + float nz1 = *frameNormal++; + float nz2 = *nextFrameNormal++; - if (!nextframe || pol == 0.0f) - { - pglNormal3f(frame->vertices[pindex].normal[0], - frame->vertices[pindex].normal[1], - frame->vertices[pindex].normal[2]); - - pglVertex3f(frame->vertices[pindex].vertex[0]*scalex/2.0f, - frame->vertices[pindex].vertex[1]*scaley/2.0f, - frame->vertices[pindex].vertex[2]*scalez/2.0f); - } - else - { - // Interpolate - float px1 = frame->vertices[pindex].vertex[0]*scalex/2.0f; - float px2 = nextframe->vertices[pindex].vertex[0]*scalex/2.0f; - float py1 = frame->vertices[pindex].vertex[1]*scaley/2.0f; - float py2 = nextframe->vertices[pindex].vertex[1]*scaley/2.0f; - float pz1 = frame->vertices[pindex].vertex[2]*scalez/2.0f; - float pz2 = nextframe->vertices[pindex].vertex[2]*scalez/2.0f; - float nx1 = frame->vertices[pindex].normal[0]; - float nx2 = nextframe->vertices[pindex].normal[0]; - float ny1 = frame->vertices[pindex].normal[1]; - float ny2 = nextframe->vertices[pindex].normal[1]; - float nz1 = frame->vertices[pindex].normal[2]; - float nz2 = nextframe->vertices[pindex].normal[2]; - - pglNormal3f((nx1 + pol * (nx2 - nx1)), - (ny1 + pol * (ny2 - ny1)), - (nz1 + pol * (nz2 - nz1))); - pglVertex3f((px1 + pol * (px2 - px1)), - (py1 + pol * (py2 - py1)), - (pz1 + pol * (pz2 - pz1))); - } + pglTexCoord2f(uvx, uvy); + pglNormal3f((nx1 + pol * (nx2 - nx1)), + (ny1 + pol * (ny2 - ny1)), + (nz1 + pol * (nz2 - nz1))); + pglVertex3f((px1 + pol * (px2 - px1)), + (py1 + pol * (py2 - py1)), + (pz1 + pol * (pz2 - pz1))); } pglEnd(); - - val = *gl_cmd_buffer++; } + +/* if (lightType != LIGHT_NONE) + { + glVertexAttribPointer(program->slots[Shaders::A_NORMAL_SLOT], 3, BGL_FLOAT, BGL_FALSE, 0, frame->normals); + // if (normalmapped) + // bglVertexAttribPointer(program->slots[Shaders::A_TANGENT_SLOT], 3, BGL_FLOAT, BGL_FALSE, 0, frame->tangents); + } + + if (frame->colors) + glVertexAttribPointer(program->slots[Shaders::A_COLOR_SLOT], 4, GL_UNSIGNED_BYTE, BGL_TRUE, 0, frame->colors); + else + { + SetGlobalWhiteColorArray(mesh->numTriangles * 3); + glVertexAttribPointer(program->slots[Shaders::A_COLOR_SLOT], 3, BGL_UNSIGNED_BYTE, BGL_TRUE, 0, globalWhiteColorArray); + } + */ pglPopMatrix(); // should be the same as glLoadIdentity if (color) pglDisable(GL_LIGHTING); @@ -2038,17 +2102,11 @@ static void DrawMD2Ex(INT32 *gl_cmd_buffer, md2_frame_t *frame, INT32 duration, // -----------------+ // HWRAPI DrawMD2 : Draw an MD2 model with glcommands // -----------------+ -EXPORT void HWRAPI(DrawMD2i) (INT32 *gl_cmd_buffer, md2_frame_t *frame, INT32 duration, INT32 tics, md2_frame_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color) +EXPORT void HWRAPI(DrawModel) (model_t *model, mdlframe_t *frame, INT32 duration, INT32 tics, mdlframe_t *nextframe, FTransform *pos, float scale, UINT8 flipped, UINT8 *color) { - DrawMD2Ex(gl_cmd_buffer, frame, duration, tics, nextframe, pos, scale, flipped, color); + DrawModelEx(model, frame, duration, tics, nextframe, pos, scale, flipped, color); } -EXPORT void HWRAPI(DrawMD2) (INT32 *gl_cmd_buffer, md2_frame_t *frame, FTransform *pos, float scale) -{ - DrawMD2Ex(gl_cmd_buffer, frame, 0, 0, NULL, pos, scale, false, NULL); -} - - // -----------------+ // SetTransform : // -----------------+ diff --git a/src/hardware/u_list.c b/src/hardware/u_list.c new file mode 100644 index 00000000..dc49a74e --- /dev/null +++ b/src/hardware/u_list.c @@ -0,0 +1,230 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#include "u_list.h" +#include "../z_zone.h" + +// Utility for managing +// structures in a linked +// list. +// +// Struct must have "next" and "prev" pointers +// as its first two variables. +// + +// +// ListAdd +// +// Adds an item to the list +// +void ListAdd(void *pItem, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + + if (*itemHead == NULL) + { + *itemHead = item; + (*itemHead)->prev = (*itemHead)->next = NULL; + } + else + { + listitem_t *tail; + tail = *itemHead; + + while (tail->next != NULL) + tail = tail->next; + + tail->next = item; + + tail->next->prev = tail; + + item->next = NULL; + } +} + +// +// ListAddFront +// +// Adds an item to the front of the list +// (This is much faster) +// +void ListAddFront(void *pItem, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + + if (*itemHead == NULL) + { + *itemHead = item; + (*itemHead)->prev = (*itemHead)->next = NULL; + } + else + { + (*itemHead)->prev = item; + item->next = (*itemHead); + item->prev = NULL; + *itemHead = item; + } +} + +// +// ListAddBefore +// +// Adds an item before the item specified in the list +// +void ListAddBefore(void *pItem, void *pSpot, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + listitem_t *spot = (listitem_t*)pSpot; + + listitem_t *prev = spot->prev; + + if (!prev) + ListAddFront(pItem, itemHead); + else + { + item->next = spot; + spot->prev = item; + item->prev = prev; + prev->next = item; + } +} + +// +// ListAddAfter +// +// Adds an item after the item specified in the list +// +void ListAddAfter(void *pItem, void *pSpot, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + listitem_t *spot = (listitem_t*)pSpot; + + listitem_t *next = spot->next; + + if (!next) + ListAdd(pItem, itemHead); + else + { + item->prev = spot; + spot->next = item; + item->next = next; + next->prev = item; + } +} + +// +// ListRemove +// +// Take an item out of the list and free its memory. +// +void ListRemove(void *pItem, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + + if (item == *itemHead) // Start of list + { + *itemHead = item->next; + + if (*itemHead) + (*itemHead)->prev = NULL; + } + else if (item->next == NULL) // end of list + { + item->prev->next = NULL; + } + else // Somewhere in between + { + item->prev->next = item->next; + item->next->prev = item->prev; + } + + Z_Free (item); +} + +// +// ListRemoveAll +// +// Removes all items from the list, freeing their memory. +// +void ListRemoveAll(listitem_t **itemHead) +{ + listitem_t *item; + listitem_t *next; + for (item = *itemHead; item; item = next) + { + next = item->next; + ListRemove(item, itemHead); + } +} + +// +// ListRemoveNoFree +// +// Take an item out of the list, but don't free its memory. +// +void ListRemoveNoFree(void *pItem, listitem_t **itemHead) +{ + listitem_t *item = (listitem_t*)pItem; + + if (item == *itemHead) // Start of list + { + *itemHead = item->next; + + if (*itemHead) + (*itemHead)->prev = NULL; + } + else if (item->next == NULL) // end of list + { + item->prev->next = NULL; + } + else // Somewhere in between + { + item->prev->next = item->next; + item->next->prev = item->prev; + } +} + +// +// ListGetCount +// +// Counts the # of items in a list +// Should not be used in performance-minded code +// +unsigned int ListGetCount(void *itemHead) +{ + listitem_t *item = (listitem_t*)itemHead; + + unsigned int count = 0; + for (; item; item = item->next) + count++; + + return count; +} + +// +// ListGetByIndex +// +// Gets an item in the list by its index +// Should not be used in performance-minded code +// +listitem_t *ListGetByIndex(void *itemHead, unsigned int index) +{ + listitem_t *head = (listitem_t*)itemHead; + unsigned int count = 0; + listitem_t *node; + for (node = head; node; node = node->next) + { + if (count == index) + return node; + + count++; + } + + return NULL; +} diff --git a/src/hardware/u_list.h b/src/hardware/u_list.h new file mode 100644 index 00000000..7e9a3cab --- /dev/null +++ b/src/hardware/u_list.h @@ -0,0 +1,29 @@ +/* + From the 'Wizard2' engine by Spaddlewit Inc. ( http://www.spaddlewit.com ) + An experimental work-in-progress. + + Donated to Sonic Team Junior and adapted to work with + Sonic Robo Blast 2. The license of this code matches whatever + the licensing is for Sonic Robo Blast 2. +*/ + +#ifndef _U_LIST_H_ +#define _U_LIST_H_ + +typedef struct listitem_s +{ + struct listitem_s *next; + struct listitem_s *prev; +} listitem_t; + +void ListAdd(void *pItem, listitem_t **itemHead); +void ListAddFront(void *pItem, listitem_t **itemHead); +void ListAddBefore(void *pItem, void *pSpot, listitem_t **itemHead); +void ListAddAfter(void *pItem, void *pSpot, listitem_t **itemHead); +void ListRemove(void *pItem, listitem_t **itemHead); +void ListRemoveAll(listitem_t **itemHead); +void ListRemoveNoFree(void *pItem, listitem_t **itemHead); +unsigned int ListGetCount(void *itemHead); +listitem_t *ListGetByIndex(void *itemHead, unsigned int index); + +#endif diff --git a/src/sdl/Srb2SDL-vc10.vcxproj b/src/sdl/Srb2SDL-vc10.vcxproj index df582865..a5166138 100644 --- a/src/sdl/Srb2SDL-vc10.vcxproj +++ b/src/sdl/Srb2SDL-vc10.vcxproj @@ -156,6 +156,10 @@ + + + + @@ -294,8 +298,12 @@ + + + + @@ -304,7 +312,7 @@ - + diff --git a/src/sdl/Srb2SDL-vc10.vcxproj.filters b/src/sdl/Srb2SDL-vc10.vcxproj.filters index 09287436..d789a61f 100644 --- a/src/sdl/Srb2SDL-vc10.vcxproj.filters +++ b/src/sdl/Srb2SDL-vc10.vcxproj.filters @@ -246,6 +246,18 @@ Hw_Hardware + + Hw_Hardware + + + Hw_Hardware + + + Hw_Hardware + + + Hw_Hardware + I_Interface @@ -624,9 +636,21 @@ Hw_Hardware + + Hw_Hardware + + + Hw_Hardware + + + Hw_Hardware + Hw_Hardware + + Hw_Hardware + I_Interface diff --git a/src/sdl/hwsym_sdl.c b/src/sdl/hwsym_sdl.c index 05ac6450..7962e01b 100644 --- a/src/sdl/hwsym_sdl.c +++ b/src/sdl/hwsym_sdl.c @@ -87,8 +87,7 @@ void *hwSym(const char *funcName,void *handle) GETFUNC(ClearMipMapCache); GETFUNC(SetSpecialState); GETFUNC(GetTextureUsed); - GETFUNC(DrawMD2); - GETFUNC(DrawMD2i); + GETFUNC(DrawModel); GETFUNC(SetTransform); GETFUNC(GetRenderVersion); #ifdef SHUFFLE diff --git a/src/sdl/i_video.c b/src/sdl/i_video.c index 78dfc820..336a709d 100644 --- a/src/sdl/i_video.c +++ b/src/sdl/i_video.c @@ -1546,8 +1546,7 @@ void I_StartupGraphics(void) HWD.pfnSetSpecialState = hwSym("SetSpecialState",NULL); HWD.pfnSetPalette = hwSym("SetPalette",NULL); HWD.pfnGetTextureUsed = hwSym("GetTextureUsed",NULL); - HWD.pfnDrawMD2 = hwSym("DrawMD2",NULL); - HWD.pfnDrawMD2i = hwSym("DrawMD2i",NULL); + HWD.pfnDrawModel = hwSym("DrawModel",NULL); HWD.pfnSetTransform = hwSym("SetTransform",NULL); HWD.pfnGetRenderVersion = hwSym("GetRenderVersion",NULL); #ifdef SHUFFLE diff --git a/src/win32/Srb2win-vc10.vcxproj b/src/win32/Srb2win-vc10.vcxproj index 5bfa29b8..3056b975 100644 --- a/src/win32/Srb2win-vc10.vcxproj +++ b/src/win32/Srb2win-vc10.vcxproj @@ -124,7 +124,11 @@ + + + + @@ -132,7 +136,7 @@ - + @@ -287,6 +291,10 @@ + + + + diff --git a/src/win32/Srb2win-vc10.vcxproj.filters b/src/win32/Srb2win-vc10.vcxproj.filters index d20dd672..1a2a7f80 100644 --- a/src/win32/Srb2win-vc10.vcxproj.filters +++ b/src/win32/Srb2win-vc10.vcxproj.filters @@ -108,9 +108,21 @@ Hw_Hardware + + Hw_Hardware + + + Hw_Hardware + + + Hw_Hardware + Hw_Hardware + + Hw_Hardware + Hw_Hardware @@ -506,6 +518,15 @@ Hw_Hardware + + Hw_Hardware + + + Hw_Hardware + + + Hw_Hardware + Hw_Hardware @@ -515,6 +536,9 @@ Hw_Hardware + + Hw_Hardware + BLUA diff --git a/src/win32/win_dll.c b/src/win32/win_dll.c index 71eda043..bc67f04a 100644 --- a/src/win32/win_dll.c +++ b/src/win32/win_dll.c @@ -109,8 +109,7 @@ static loadfunc_t hwdFuncTable[] = { {"GClipRect@20", &hwdriver.pfnGClipRect}, {"ClearMipMapCache@0", &hwdriver.pfnClearMipMapCache}, {"SetSpecialState@8", &hwdriver.pfnSetSpecialState}, - {"DrawMD2@16", &hwdriver.pfnDrawMD2}, - {"DrawMD2i@36", &hwdriver.pfnDrawMD2i}, + {"DrawModel@16", &hwdriver.pfnDrawModel}, {"SetTransform@4", &hwdriver.pfnSetTransform}, {"GetTextureUsed@0", &hwdriver.pfnGetTextureUsed}, {"GetRenderVersion@0", &hwdriver.pfnGetRenderVersion}, @@ -140,8 +139,7 @@ static loadfunc_t hwdFuncTable[] = { {"GClipRect", &hwdriver.pfnGClipRect}, {"ClearMipMapCache", &hwdriver.pfnClearMipMapCache}, {"SetSpecialState", &hwdriver.pfnSetSpecialState}, - {"DrawMD2", &hwdriver.pfnDrawMD2}, - {"DrawMD2i", &hwdriver.pfnDrawMD2i}, + {"DrawModel", &hwdriver.pfnDrawModel}, {"SetTransform", &hwdriver.pfnSetTransform}, {"GetTextureUsed", &hwdriver.pfnGetTextureUsed}, {"GetRenderVersion", &hwdriver.pfnGetRenderVersion},