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#ifndef _SLSHADER_H
#define _SLSHADER_H

#include "ri.h"
#include "qdtl.h"
#include "decparam.h"
#include "boolarray.h"
#include <vector>

#include "QDRender.h"

// added extra bool type, is only internal shading engine type, not visible to RSL or rib

struct SlSymbol
      SlSymbol():token(NULL), default_value(NULL) {}
            if (token) { delete[] token;  token = NULL; }
            if (default_value)
                  // string is allocated separately in array !!
                  if (type == SL_STRING)
                        delete[] reinterpret_cast<RtString*>(default_value)[0];
                  delete[] reinterpret_cast<unsigned long*>(default_value);
                  default_value = NULL;
      RtToken       token;          // name of variable
      SlType        type;           // Shader language type
      SlStorage     storage;        // Parameter, constant, etc.
      RtBoolean     isvarying;
      RtInt         arraysize;
      RtVoid       *default_value;

struct SlOpcode
      RtInt tableOffset;  // opcode table offset
      RtInt operandCount; // number of operands

struct SlSymbolWord
      RtInt tableOffset; // symbol table offset
      RtInt detailFlag;  // uniform(0)/varying(1)

typedef RtInt SlAddress;
union SlCPUWord
      SlOpcode      opcode;
      SlSymbolWord  symbol;
      SlAddress     address;

struct SlValue
      union {
            RtFloat  *floatVal;
            RtVector *vectorVal;    // also used for color/point/normal
            RtMatrix *matrixVal;
            RtString *stringVal;    // note: unlike in p.r.book, here *is* an array, varying strings are not possible, but array of strings are!
            RtVoid   *voidVal;            // this also used for bool type

// this is used to initialize the required global grid variables before the shader is executed
// order corresponds to entries of the _sl_access table, see slshader.cpp
// (now includes all variables, not only varying)
enum slGlobalBits {GB_Cs=0x1, GB_Os=0x2, GB_P=0x4, GB_dPdu=0x8, GB_dPdv=0x10,
                   GB_N=0x20, GB_Ng=0x40, GB_u=0x80, GB_v=0x100,
                   GB_du=0x200, GB_dv=0x400, GB_s=0x800, GB_t=0x1000,
                   GB_L=0x2000, GB_Ps=0x4000, GB_Cl=0x8000, GB_Ol=0x10000,
                   GB_E=0x20000, GB_I=0x40000, GB_ncomps=0x80000,
                   GB_time=0x100000, GB_dtime=0x200000, GB_dPdtime=0x400000,
                   GB_alpha=0x800000, GB_Ci=0x1000000, GB_Oi=0x2000000};
typedef unsigned int slGlobals;

// data accessibility table of the standard primitive variables for the various shader types
struct _SlAccess
      RtToken name;
      // these are one of 'rwn', read / write / none respectively
      // if it has write access, obviously it is also readable
      char surface, light, displacement, volume, imager;
      SlType type;
      RtBoolean isvarying;
extern _SlAccess _sl_access[];

// shader type, SL_NONE only here for init.

class SlShader
      // ctor
      SlShader():name(NULL), type(SL_NONE), isAmbient(RI_TRUE), maincode_offset(0), update_Ng(false) {}
      // dtor
            if (name) { delete[] name;  name = NULL; }
            for (unsigned i=0; i<symbols.size(); ++i) {
                  delete symbols[i];
                  symbols[i] = NULL;
      // data
      RtToken name; // shader name
      SlShaderType type;
      std::vector<SlSymbol*> symbols;
      std::vector<SlCPUWord> code; // actual VM code
      // flag for lights, set when no illuminate/solar statements in shader
      RtBoolean isAmbient;
      // if initialization code used, offset to main code
      RtInt maincode_offset;
      // global variables used in the shader
      slGlobals globals_used;
      // this used for displacement shaders which need to update Ng when P is modified
      bool update_Ng;
      // other user-defined *varying* variables that might need dicing (iff also specified as primitive variable)
      sklist_t<decParam_t> user_vars;

class MicroPolygonGrid;
class Transform;
class SlShaderInstance
      // ctor
      SlShaderInstance():shader(NULL), xform(NULL) {}
      // dtor
      // mtds
      bool setParameter(const char* name, SlType type, RtBoolean isvarying, RtInt arraysize, RtVoid *val);
      SlValue* bind(MicroPolygonGrid* grid, bool initcode = false);
      RtVoid unbind(SlValue* data, bool initcode = false);
      RtVoid run(MicroPolygonGrid* grid);
      RtVoid run_initcode();
      // data
      SlShader *shader;
      std::vector<SlSymbol*> callparams;
      // 'shader' space, borrowed reference, do not delete!
      const Transform* xform;

class SlRunContext
      // ctors
      SlRunContext():PC(0), SIMD_count(0), SIMD_flags(NULL), data(NULL), shdInstance(NULL),
                     grid(NULL), aux_grid(NULL), light_iterator(0) {}
      // dtor
            if (SIMD_flags) { delete[] SIMD_flags;  SIMD_flags = NULL; }
            // data[] already freed at end of run(), but just in case...
            if (data) { delete data;  data = NULL; }
      // mtds
      SlCPUWord* getOperand(RtInt a) const { return &shdInstance->shader->code[PC + a]; }
      RtInt getOperandCount() const { return getOperand(0)->opcode.operandCount; }
      SlValue& getValue(RtInt a) const { return data[getOperand(a)->symbol.tableOffset]; }
      SlSymbol* getSymbol(RtInt a) const { return shdInstance->shader->symbols[getOperand(a)->symbol.tableOffset]; }
      // was boolean, but more convenient to return integer, to use directly as increment value (1 == varying, 0 == uniform)
      // (RtBoolean is int anyway, so really only the name has changed)
      RtInt isVarying(RtInt a) const { return getOperand(a)->symbol.detailFlag; }
      // data access
      RtFloat* getFloat(RtInt a) const { return getValue(a).floatVal; }
      // vector also used for color/normal/point
      RtVector* getVector(RtInt a) const { return getValue(a).vectorVal; }
      RtMatrix* getMatrix(RtInt a) const { return getValue(a).matrixVal; }
      RtString* getString(RtInt a) const { return getValue(a).stringVal; }
      boolarray_t* getBoolean(RtInt a) const { return reinterpret_cast<boolarray_t*>(getValue(a).voidVal); }
      RtVoid* getVoid(RtInt a) const { return getValue(a).voidVal; }
      bool active(RtInt i) const { return (SIMD_flags[i] == 0); }
      // see comment at start of shaderVM.cpp for explanation of this function
      bool some_active() const
            for (RtInt i=0; i<SIMD_count; ++i)
                  if (SIMD_flags[i] == 0) return true;
            return false;
      RtVoid enable(RtInt i) { if (SIMD_flags[i]) SIMD_flags[i]--; }
      RtVoid disable(RtInt i) { SIMD_flags[i]++; }
      RtVoid nextInstruction() { PC += getOperandCount()+1; }
      RtInt getAddress(RtInt a) const { return getOperand(a)->address; }
      // simd state using activity counter
      RtVoid SIMD_init();
      RtVoid SIMD_reset();
      RtVoid SIMD_push(boolarray_t& cond);
      RtVoid SIMD_pop();
      RtVoid SIMD_else();
      // data, all public for direct access by VM
      RtInt PC; // programcounter
      RtInt SIMD_count;
      RtInt* SIMD_flags;
      SlValue* data;
      SlShaderInstance* shdInstance;
      // these needed for running lightshaders
      MicroPolygonGrid *grid, *aux_grid;
      unsigned int light_iterator;

// creates the virtual machine code from the given sourcecode string
SlShader* parseVMsource(const char* scode, SlShaderType expected_type);


#endif // _SLSHADER_H

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