#ifndef PRIVATE_H #define PRIVATE_H #include #include #include "gl_assert.h" #include "platform.h" #include "types.h" #include "../include/GL/gl.h" #include "../include/GL/glext.h" #include "../include/GL/glkos.h" #include "../containers/aligned_vector.h" #include "../containers/named_array.h" #define MAX_GLDC_4BPP_PALETTE_SLOTS 16 #define MAX_GLDC_PALETTE_SLOTS 4 #define MAX_GLDC_SHARED_PALETTES (MAX_GLDC_PALETTE_SLOTS*MAX_GLDC_4BPP_PALETTE_SLOTS) extern void* memcpy4 (void *dest, const void *src, size_t count); #define GL_NO_INSTRUMENT inline __attribute__((no_instrument_function)) #define GL_INLINE_DEBUG GL_NO_INSTRUMENT __attribute__((always_inline)) #define GL_FORCE_INLINE static GL_INLINE_DEBUG #define _GL_UNUSED(x) (void)(x) #define _PACK4(v) ((v * 0xF) / 0xFF) #define PACK_ARGB4444(a,r,g,b) (_PACK4(a) << 12) | (_PACK4(r) << 8) | (_PACK4(g) << 4) | (_PACK4(b)) #define PACK_ARGB8888(a,r,g,b) ( ((a & 0xFF) << 24) | ((r & 0xFF) << 16) | ((g & 0xFF) << 8) | (b & 0xFF) ) #define PACK_ARGB1555(a,r,g,b) \ (((GLushort)(a > 0) << 15) | (((GLushort) r >> 3) << 10) | (((GLushort)g >> 3) << 5) | ((GLushort)b >> 3)) #define PACK_RGB565(r,g,b) \ ((((GLushort)r & 0xf8) << 8) | (((GLushort) g & 0xfc) << 3) | ((GLushort) b >> 3)) #define TRACE_ENABLED 0 #define TRACE() if(TRACE_ENABLED) {fprintf(stderr, "%s\n", __func__);} (void) 0 #define VERTEX_ENABLED_FLAG (1 << 0) #define UV_ENABLED_FLAG (1 << 1) #define ST_ENABLED_FLAG (1 << 2) #define DIFFUSE_ENABLED_FLAG (1 << 3) #define NORMAL_ENABLED_FLAG (1 << 4) #define MAX_TEXTURE_SIZE 1024 /* This gives us an easy way to switch * internal matrix order if necessary */ #define TRANSPOSE 0 #if TRANSPOSE #define M0 0 #define M1 4 #define M2 8 #define M3 12 #define M4 1 #define M5 5 #define M6 9 #define M7 13 #define M8 2 #define M9 6 #define M10 10 #define M11 14 #define M12 3 #define M13 7 #define M14 11 #define M15 15 #else #define M0 0 #define M1 1 #define M2 2 #define M3 3 #define M4 4 #define M5 5 #define M6 6 #define M7 7 #define M8 8 #define M9 9 #define M10 10 #define M11 11 #define M12 12 #define M13 13 #define M14 14 #define M15 15 #endif typedef struct { unsigned int flags; /* Constant PVR_CMD_USERCLIP */ unsigned int d1, d2, d3; /* Ignored for this type */ unsigned int sx, /* Start x */ sy, /* Start y */ ex, /* End x */ ey; /* End y */ } PVRTileClipCommand; /* Tile Clip command for the pvr */ typedef struct { unsigned int list_type; AlignedVector vector; } PolyList; typedef struct { GLint x; GLint y; GLint width; GLint height; float x_plus_hwidth; float y_plus_hheight; float hwidth; /* width * 0.5f */ float hheight; /* height * 0.5f */ } Viewport; extern Viewport VIEWPORT; typedef struct { /* Palette data is always stored in RAM as RGBA8888 and packed as ARGB8888 * when uploaded to the PVR */ GLubyte* data; GLushort width; /* The user specified width */ GLushort size; /* The size of the bank (16 or 256) */ GLenum format; GLshort bank; } TexturePalette; typedef struct { //0 GLuint index; GLuint color; /* This is the PVR texture format */ //8 GLenum minFilter; GLenum magFilter; //16 GLvoid *data; TexturePalette* palette; //24 GLushort width; GLushort height; //28 GLushort mipmap; /* Bitmask of supplied mipmap levels */ /* When using the shared palette, this is the bank (0-3) */ GLushort shared_bank; //32 GLuint dataStride; //36 GLubyte mipmap_bias; GLubyte env; GLubyte mipmapCount; /* The number of mipmap levels */ GLubyte uv_clamp; //40 /* Mipmap textures have a different * offset for the base level when supplying the data, this * keeps track of that. baseDataOffset == 0 * means that the texture has no mipmaps */ GLuint baseDataOffset; GLuint baseDataSize; /* The data size of mipmap level 0 */ //48 GLboolean isCompressed; GLboolean isPaletted; //50 GLubyte padding[14]; // Pad to 64-bytes } __attribute__((aligned(32))) TextureObject; typedef struct { GLfloat emissive[4]; GLfloat ambient[4]; GLfloat diffuse[4]; GLfloat specular[4]; /* Valid values are 0-128 */ GLfloat exponent; /* Base ambient + emission colour for * the current material + light */ GLfloat baseColour[4]; } Material; typedef struct { GLfloat position[4]; GLfloat spot_direction[3]; GLfloat spot_cutoff; GLfloat constant_attenuation; GLfloat linear_attenuation; GLfloat quadratic_attenuation; GLfloat spot_exponent; GLfloat diffuse[4]; GLfloat specular[4]; GLfloat ambient[4]; GLboolean isDirectional; GLboolean isEnabled; /* We set these when the material changes * so we don't calculate them per-vertex. They are * light_value * materia_value */ GLfloat ambientMaterial[4]; GLfloat diffuseMaterial[4]; GLfloat specularMaterial[4]; } LightSource; #define argbcpy(dst, src) \ *((GLuint*) dst) = *((const GLuint*) src) \ typedef struct { float xy[2]; } _glvec2; typedef struct { float xyz[3]; } _glvec3; typedef struct { float xyzw[4]; } _glvec4; #define vec2cpy(dst, src) \ *((_glvec2*) dst) = *((_glvec2*) src) #define vec3cpy(dst, src) \ *((_glvec3*) dst) = *((_glvec3*) src) #define vec4cpy(dst, src) \ *((_glvec4*) dst) = *((_glvec4*) src) GL_FORCE_INLINE float clamp(float d, float min, float max) { return (d < min) ? min : (d > max) ? max : d; } GL_FORCE_INLINE void memcpy_vertex(Vertex *dest, const Vertex *src) { #ifdef __DREAMCAST__ _Complex float double_scratch; asm volatile ( "fschg\n\t" "clrs\n\t" ".align 2\n\t" "fmov.d @%[in]+, %[scratch]\n\t" "fmov.d %[scratch], @%[out]\n\t" "fmov.d @%[in]+, %[scratch]\n\t" "add #8, %[out]\n\t" "fmov.d %[scratch], @%[out]\n\t" "fmov.d @%[in]+, %[scratch]\n\t" "add #8, %[out]\n\t" "fmov.d %[scratch], @%[out]\n\t" "fmov.d @%[in], %[scratch]\n\t" "add #8, %[out]\n\t" "fmov.d %[scratch], @%[out]\n\t" "fschg\n" : [in] "+&r" ((uint32_t) src), [scratch] "=&d" (double_scratch), [out] "+&r" ((uint32_t) dest) : : "t", "memory" // clobbers ); #else *dest = *src; #endif } #define swapVertex(a, b) \ do { \ Vertex __attribute__((aligned(32))) c; \ memcpy_vertex(&c, a); \ memcpy_vertex(a, b); \ memcpy_vertex(b, &c); \ } while(0) /* ClipVertex doesn't have room for these, so we need to parse them * out separately. Potentially 'w' will be housed here if we support oargb */ typedef struct { float nxyz[3]; float st[2]; } VertexExtra; /* Generating PVR vertices from the user-submitted data gets complicated, particularly * when a realloc could invalidate pointers. This structure holds all the information * we need on the target vertex array to allow passing around to the various stages (e.g. generate/clip etc.) */ typedef struct __attribute__((aligned(32))) { PolyList* output; uint32_t header_offset; // The offset of the header in the output list uint32_t start_offset; // The offset into the output list uint32_t count; // The number of vertices in this output /* Pointer to count * VertexExtra; */ AlignedVector* extras; } SubmissionTarget; Vertex* _glSubmissionTargetStart(SubmissionTarget* target); Vertex* _glSubmissionTargetEnd(SubmissionTarget* target); typedef enum { CLIP_RESULT_ALL_IN_FRONT, CLIP_RESULT_ALL_BEHIND, CLIP_RESULT_ALL_ON_PLANE, CLIP_RESULT_FRONT_TO_BACK, CLIP_RESULT_BACK_TO_FRONT } ClipResult; #define A8IDX 3 #define R8IDX 2 #define G8IDX 1 #define B8IDX 0 struct SubmissionTarget; PolyList* _glOpaquePolyList(); PolyList* _glPunchThruPolyList(); PolyList *_glTransparentPolyList(); void _glInitAttributePointers(); void _glInitContext(); void _glInitLights(); void _glInitImmediateMode(GLuint initial_size); void _glInitMatrices(); void _glInitFramebuffers(); void _glInitSubmissionTarget(); void _glMatrixLoadNormal(); void _glMatrixLoadModelView(); void _glMatrixLoadProjection(); void _glMatrixLoadTexture(); void _glMatrixLoadModelViewProjection(); extern GLfloat DEPTH_RANGE_MULTIPLIER_L; extern GLfloat DEPTH_RANGE_MULTIPLIER_H; Matrix4x4* _glGetProjectionMatrix(); Matrix4x4* _glGetModelViewMatrix(); void _glWipeTextureOnFramebuffers(GLuint texture); GLubyte _glInitTextures(); void _glUpdatePVRTextureContext(PolyContext* context, GLshort textureUnit); void _glAllocateSpaceForMipmaps(TextureObject* active); typedef struct { const void* ptr; // 4 GLenum type; // 4 GLsizei stride; // 4 GLint size; // 4 } AttribPointer; typedef struct { AttribPointer vertex; // 16 AttribPointer colour; // 32 AttribPointer uv; // 48 AttribPointer st; // 64 AttribPointer normal; // 80 AttribPointer padding; // 96 } AttribPointerList; GLboolean _glCheckValidEnum(GLint param, GLint* values, const char* func); GLuint* _glGetEnabledAttributes(); AttribPointer* _glGetVertexAttribPointer(); AttribPointer* _glGetDiffuseAttribPointer(); AttribPointer* _glGetNormalAttribPointer(); AttribPointer* _glGetUVAttribPointer(); AttribPointer* _glGetSTAttribPointer(); GLenum _glGetShadeModel(); TextureObject* _glGetTexture0(); TextureObject* _glGetTexture1(); TextureObject* _glGetBoundTexture(); extern GLubyte ACTIVE_TEXTURE; extern GLboolean TEXTURES_ENABLED[]; GLubyte _glGetActiveTexture(); GLuint _glGetActiveClientTexture(); TexturePalette* _glGetSharedPalette(GLshort bank); void _glSetInternalPaletteFormat(GLenum val); GLboolean _glIsSharedTexturePaletteEnabled(); void _glApplyColorTable(TexturePalette *palette); GLboolean _glIsBlendingEnabled(); GLboolean _glIsAlphaTestEnabled(); GLboolean _glIsCullingEnabled(); GLboolean _glIsDepthTestEnabled(); GLboolean _glIsDepthWriteEnabled(); GLboolean _glIsScissorTestEnabled(); GLboolean _glIsFogEnabled(); GLenum _glGetDepthFunc(); GLenum _glGetCullFace(); GLenum _glGetFrontFace(); GLenum _glGetBlendSourceFactor(); GLenum _glGetBlendDestFactor(); extern PolyList OP_LIST; extern PolyList PT_LIST; extern PolyList TR_LIST; GL_FORCE_INLINE PolyList* _glActivePolyList() { if(_glIsBlendingEnabled()) { return &TR_LIST; } else if(_glIsAlphaTestEnabled()) { return &PT_LIST; } else { return &OP_LIST; } } GLboolean _glIsMipmapComplete(const TextureObject* obj); GLubyte* _glGetMipmapLocation(const TextureObject* obj, GLuint level); GLuint _glGetMipmapLevelCount(const TextureObject* obj); GLboolean _glIsLightingEnabled(); void _glEnableLight(GLubyte light, GLboolean value); GLboolean _glIsColorMaterialEnabled(); GLboolean _glIsNormalizeEnabled(); extern AttribPointerList ATTRIB_POINTERS; extern GLuint ENABLED_VERTEX_ATTRIBUTES; extern GLuint FAST_PATH_ENABLED; GL_FORCE_INLINE GLuint _glIsVertexDataFastPathCompatible() { /* The fast path is enabled when all enabled elements of the vertex * match the output format. This means: * * xyz == 3f * uv == 2f * rgba == argb4444 * st == 2f * normal == 3f * * When this happens we do inline straight copies of the enabled data * and transforms for positions and normals happen while copying. */ if((ENABLED_VERTEX_ATTRIBUTES & VERTEX_ENABLED_FLAG)) { if(ATTRIB_POINTERS.vertex.size != 3 || ATTRIB_POINTERS.vertex.type != GL_FLOAT) { return GL_FALSE; } } if((ENABLED_VERTEX_ATTRIBUTES & UV_ENABLED_FLAG)) { if(ATTRIB_POINTERS.uv.size != 2 || ATTRIB_POINTERS.uv.type != GL_FLOAT) { return GL_FALSE; } } if((ENABLED_VERTEX_ATTRIBUTES & DIFFUSE_ENABLED_FLAG)) { /* FIXME: Shouldn't this be a reversed format? */ if(ATTRIB_POINTERS.colour.size != GL_BGRA || ATTRIB_POINTERS.colour.type != GL_UNSIGNED_BYTE) { return GL_FALSE; } } if((ENABLED_VERTEX_ATTRIBUTES & ST_ENABLED_FLAG)) { if(ATTRIB_POINTERS.st.size != 2 || ATTRIB_POINTERS.st.type != GL_FLOAT) { return GL_FALSE; } } if((ENABLED_VERTEX_ATTRIBUTES & NORMAL_ENABLED_FLAG)) { if(ATTRIB_POINTERS.normal.size != 3 || ATTRIB_POINTERS.normal.type != GL_FLOAT) { return GL_FALSE; } } return GL_TRUE; } GL_FORCE_INLINE GLuint _glRecalcFastPath() { FAST_PATH_ENABLED = _glIsVertexDataFastPathCompatible(); return FAST_PATH_ENABLED; } extern GLboolean IMMEDIATE_MODE_ACTIVE; extern GLenum LAST_ERROR; extern char ERROR_FUNCTION[64]; GL_FORCE_INLINE const char* _glErrorEnumAsString(GLenum error) { switch(error) { case GL_INVALID_ENUM: return "GL_INVALID_ENUM"; case GL_OUT_OF_MEMORY: return "GL_OUT_OF_MEMORY"; case GL_INVALID_OPERATION: return "GL_INVALID_OPERATION"; case GL_INVALID_VALUE: return "GL_INVALID_VALUE"; default: return "GL_UNKNOWN_ERROR"; } } GL_FORCE_INLINE void _glKosThrowError(GLenum error, const char *function) { if(LAST_ERROR == GL_NO_ERROR) { LAST_ERROR = error; sprintf(ERROR_FUNCTION, "%s\n", function); fprintf(stderr, "GL ERROR: %s when calling %s\n", _glErrorEnumAsString(LAST_ERROR), ERROR_FUNCTION); } } GL_FORCE_INLINE GLubyte _glKosHasError() { return (LAST_ERROR != GL_NO_ERROR) ? GL_TRUE : GL_FALSE; } GL_FORCE_INLINE void _glKosResetError() { LAST_ERROR = GL_NO_ERROR; sprintf(ERROR_FUNCTION, "\n"); } GL_FORCE_INLINE GLboolean _glCheckImmediateModeInactive(const char* func) { /* Returns 1 on error */ if(IMMEDIATE_MODE_ACTIVE) { _glKosThrowError(GL_INVALID_OPERATION, func); return GL_TRUE; } return GL_FALSE; } typedef struct { float n[3]; // 12 bytes float finalColour[4]; //28 bytes uint32_t padding; // 32 bytes } EyeSpaceData; extern void _glPerformLighting(Vertex* vertices, EyeSpaceData *es, const uint32_t count); unsigned char _glIsClippingEnabled(); void _glEnableClipping(unsigned char v); GLuint _glFreeTextureMemory(); GLuint _glUsedTextureMemory(); GLuint _glFreeContiguousTextureMemory(); void _glApplyScissor(bool force); void _glSetColorMaterialMask(GLenum mask); void _glSetColorMaterialMode(GLenum mode); GLenum _glColorMaterialMode(); Material* _glActiveMaterial(); void _glSetLightModelViewerInEyeCoordinates(GLboolean v); void _glSetLightModelSceneAmbient(const GLfloat* v); void _glSetLightModelColorControl(GLint v); GLuint _glEnabledLightCount(); void _glRecalcEnabledLights(); GLfloat* _glLightModelSceneAmbient(); GLfloat* _glGetLightModelSceneAmbient(); LightSource* _glLightAt(GLuint i); GLboolean _glNearZClippingEnabled(); GLboolean _glGPUStateIsDirty(); void _glGPUStateMarkClean(); void _glGPUStateMarkDirty(); #define MAX_GLDC_TEXTURE_UNITS 2 #define MAX_GLDC_LIGHTS 8 #define AMBIENT_MASK 1 #define DIFFUSE_MASK 2 #define EMISSION_MASK 4 #define SPECULAR_MASK 8 #define SCENE_AMBIENT_MASK 16 /* This is from KOS pvr_buffers.c */ #define PVR_MIN_Z 0.0001f #define MIN(a,b) (((a)<(b))?(a):(b)) #define MAX(a,b) (((a)>(b))?(a):(b)) #define CLAMP( X, _MIN, _MAX ) ( (X)<(_MIN) ? (_MIN) : ((X)>(_MAX) ? (_MAX) : (X)) ) #endif // PRIVATE_H