// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 2020-2022 by Jaime "Lactozilla" Passos. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file r_patch.c /// \brief Patch generation. #include "doomdef.h" #include "r_patch.h" #include "r_picformats.h" #include "r_defs.h" #include "z_zone.h" #ifdef HWRENDER #include "hardware/hw_glob.h" #endif // // Creates a patch. // Assumes a PU_PATCH zone memory tag and no user, but can always be set later // patch_t *Patch_Create(softwarepatch_t *source, size_t srcsize, void *dest) { patch_t *patch = (dest == NULL) ? Z_Calloc(sizeof(patch_t), PU_PATCH, NULL) : (patch_t *)(dest); if (source) { INT32 col, colsize; size_t size = sizeof(INT32) * SHORT(source->width); size_t offs = (sizeof(INT16) * 4) + size; patch->width = SHORT(source->width); patch->height = SHORT(source->height); patch->leftoffset = SHORT(source->leftoffset); patch->topoffset = SHORT(source->topoffset); patch->columnofs = Z_Calloc(size, PU_PATCH_DATA, NULL); for (col = 0; col < source->width; col++) { // This makes the column offsets relative to the column data itself, // instead of the entire patch data patch->columnofs[col] = LONG(source->columnofs[col]) - offs; } if (!srcsize) I_Error("Patch_Create: no source size!"); colsize = (INT32)(srcsize) - (INT32)offs; if (colsize <= 0) I_Error("Patch_Create: no column data!"); patch->columns = Z_Calloc(colsize, PU_PATCH_DATA, NULL); M_Memcpy(patch->columns, ((UINT8 *)source + LONG(source->columnofs[0])), colsize); } return patch; } // // Frees a patch from memory. // static void Patch_FreeData(patch_t *patch) { INT32 i; #ifdef HWRENDER if (patch->hardware) HWR_FreeTexture(patch); #endif for (i = 0; i < 4; i++) { if (patch->flats[i]) Z_Free(patch->flats[i]); } #ifdef ROTSPRITE if (patch->rotated) { rotsprite_t *rotsprite = patch->rotated; for (i = 0; i < rotsprite->angles; i++) { if (rotsprite->patches[i]) Patch_Free(rotsprite->patches[i]); } Z_Free(rotsprite->patches); Z_Free(rotsprite); } #endif if (patch->columnofs) Z_Free(patch->columnofs); if (patch->columns) Z_Free(patch->columns); } void Patch_Free(patch_t *patch) { Patch_FreeData(patch); Z_Free(patch); } // // Frees patches with a tag range. // static boolean Patch_FreeTagsCallback(void *mem) { patch_t *patch = (patch_t *)mem; Patch_FreeData(patch); return true; } void Patch_FreeTags(INT32 lowtag, INT32 hightag) { Z_IterateTags(lowtag, hightag, Patch_FreeTagsCallback); } void Patch_GenerateFlat(patch_t *patch, pictureflags_t flags) { UINT8 flip = (flags & (PICFLAGS_XFLIP | PICFLAGS_YFLIP)); if (patch->flats[flip] == NULL) patch->flats[flip] = Picture_Convert(PICFMT_PATCH, patch, PICFMT_FLAT16, 0, NULL, 0, 0, 0, 0, flags); } #ifdef HWRENDER // // Allocates a hardware patch. // void *Patch_AllocateHardwarePatch(patch_t *patch) { if (!patch->hardware) { GLPatch_t *grPatch = Z_Calloc(sizeof(GLPatch_t), PU_HWRPATCHINFO, &patch->hardware); grPatch->mipmap = Z_Calloc(sizeof(GLMipmap_t), PU_HWRPATCHINFO, &grPatch->mipmap); } return (void *)(patch->hardware); } // // Creates a hardware patch. // void *Patch_CreateGL(patch_t *patch) { GLPatch_t *grPatch = (GLPatch_t *)Patch_AllocateHardwarePatch(patch); if (!grPatch->mipmap->data) // Run HWR_MakePatch in all cases, to recalculate some things HWR_MakePatch(patch, grPatch, grPatch->mipmap, false); return grPatch; } #endif // HWRENDER