kc3-lang/angle/src/compiler/BaseTypes.h

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• Hash : 09c323a4
  Author :
  Date : 2011-08-12T18:22:25
  

  Add an option to support for GL_OES_EGL_image_external.
  
  Comes with this extension is the new sampler type samplerExternalOES.
  
  ANGLEBUG=175
  TEST=compile the attached shader file
  Review URL: http://codereview.appspot.com/4809076
  
  git-svn-id: https://angleproject.googlecode.com/svn/trunk@728 736b8ea6-26fd-11df-bfd4-992fa37f6226
  

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• src/compiler/BaseTypes.h

• //
  // Copyright (c) 2002-2010 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  
  #ifndef _BASICTYPES_INCLUDED_
  #define _BASICTYPES_INCLUDED_
  
  //
  // Precision qualifiers
  //
  enum TPrecision
  {
      // These need to be kept sorted
      EbpUndefined,
      EbpLow,
      EbpMedium,
      EbpHigh,
  };
  
  inline const char* getPrecisionString(TPrecision p)
  {
      switch(p)
      {
      case EbpHigh:		return "highp";		break;
      case EbpMedium:		return "mediump";	break;
      case EbpLow:		return "lowp";		break;
      default:			return "mediump";   break;   // Safest fallback
      }
  }
  
  //
  // Basic type.  Arrays, vectors, etc., are orthogonal to this.
  //
  enum TBasicType
  {
      EbtVoid,
      EbtFloat,
      EbtInt,
      EbtBool,
      EbtGuardSamplerBegin,  // non type:  see implementation of IsSampler()
      EbtSampler2D,
      EbtSamplerCube,
      EbtSamplerExternalOES,  // Only valid if OES_EGL_image_external exists.
      EbtGuardSamplerEnd,    // non type:  see implementation of IsSampler()
      EbtStruct,
      EbtAddress,            // should be deprecated??
  };
  
  inline const char* getBasicString(TBasicType t)
  {
      switch (t)
      {
      case EbtVoid:              return "void";              break;
      case EbtFloat:             return "float";             break;
      case EbtInt:               return "int";               break;
      case EbtBool:              return "bool";              break;
      case EbtSampler2D:         return "sampler2D";         break;
      case EbtSamplerCube:       return "samplerCube";       break;
      case EbtSamplerExternalOES: return "samplerExternalOES"; break;
      case EbtStruct:            return "structure";         break;
      default:                   return "unknown type";
      }
  }
  
  inline bool IsSampler(TBasicType type)
  {
      return type > EbtGuardSamplerBegin && type < EbtGuardSamplerEnd;
  }
  
  //
  // Qualifiers and built-ins.  These are mainly used to see what can be read
  // or written, and by the machine dependent translator to know which registers
  // to allocate variables in.  Since built-ins tend to go to different registers
  // than varying or uniform, it makes sense they are peers, not sub-classes.
  //
  enum TQualifier
  {
      EvqTemporary,     // For temporaries (within a function), read/write
      EvqGlobal,        // For globals read/write
      EvqConst,         // User defined constants and non-output parameters in functions
      EvqAttribute,     // Readonly
      EvqVaryingIn,     // readonly, fragment shaders only
      EvqVaryingOut,    // vertex shaders only  read/write
      EvqInvariantVaryingIn,     // readonly, fragment shaders only
      EvqInvariantVaryingOut,    // vertex shaders only  read/write
      EvqUniform,       // Readonly, vertex and fragment
  
      // pack/unpack input and output
      EvqInput,
      EvqOutput,
  
      // parameters
      EvqIn,
      EvqOut,
      EvqInOut,
      EvqConstReadOnly,
  
      // built-ins written by vertex shader
      EvqPosition,
      EvqPointSize,
  
      // built-ins read by fragment shader
      EvqFragCoord,
      EvqFrontFacing,
      EvqPointCoord,
  
      // built-ins written by fragment shader
      EvqFragColor,
      EvqFragData,
  
      // end of list
      EvqLast,
  };
  
  //
  // This is just for debug print out, carried along with the definitions above.
  //
  inline const char* getQualifierString(TQualifier q)
  {
      switch(q)
      {
      case EvqTemporary:      return "Temporary";      break;
      case EvqGlobal:         return "Global";         break;
      case EvqConst:          return "const";          break;
      case EvqConstReadOnly:  return "const";          break;
      case EvqAttribute:      return "attribute";      break;
      case EvqVaryingIn:      return "varying";        break;
      case EvqVaryingOut:     return "varying";        break;
      case EvqInvariantVaryingIn: return "invariant varying";	break;
      case EvqInvariantVaryingOut:return "invariant varying";	break;
      case EvqUniform:        return "uniform";        break;
      case EvqIn:             return "in";             break;
      case EvqOut:            return "out";            break;
      case EvqInOut:          return "inout";          break;
      case EvqInput:          return "input";          break;
      case EvqOutput:         return "output";         break;
      case EvqPosition:       return "Position";       break;
      case EvqPointSize:      return "PointSize";      break;
      case EvqFragCoord:      return "FragCoord";      break;
      case EvqFrontFacing:    return "FrontFacing";    break;
      case EvqFragColor:      return "FragColor";      break;
      case EvqFragData:       return "FragData";      break;
      default:                return "unknown qualifier";
      }
  }
  
  #endif // _BASICTYPES_INCLUDED_
  

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