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/*
 * Copyright (C) 2010  Brian Paul   All Rights Reserved.
 * Copyright (C) 2010  Intel Corporation
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 * OTHER DEALINGS IN THE SOFTWARE.
 *
 * Author: Kristian Høgsberg <krh@bitplanet.net>
 */

#include "glheader.h"
#include "context.h"
#include "blend.h"
#include "debug_output.h"
#include "enable.h"
#include "enums.h"
#include "errors.h"
#include "extensions.h"
#include "get.h"
#include "macros.h"
#include "mtypes.h"
#include "spirv_extensions.h"
#include "state.h"
#include "texcompress.h"
#include "texstate.h"
#include "framebuffer.h"
#include "samplerobj.h"
#include "stencil.h"
#include "version.h"

/* This is a table driven implemetation of the glGet*v() functions.
 * The basic idea is that most getters just look up an int somewhere
 * in struct gl_context and then convert it to a bool or float according to
 * which of glGetIntegerv() glGetBooleanv() etc is being called.
 * Instead of generating code to do this, we can just record the enum
 * value and the offset into struct gl_context in an array of structs.  Then
 * in glGet*(), we lookup the struct for the enum in question, and use
 * the offset to get the int we need.
 *
 * Sometimes we need to look up a float, a boolean, a bit in a
 * bitfield, a matrix or other types instead, so we need to track the
 * type of the value in struct gl_context.  And sometimes the value isn't in
 * struct gl_context but in the drawbuffer, the array object, current texture
 * unit, or maybe it's a computed value.  So we need to also track
 * where or how to find the value.  Finally, we sometimes need to
 * check that one of a number of extensions are enabled, the GL
 * version or flush or call _mesa_update_state().  This is done by
 * attaching optional extra information to the value description
 * struct, it's sort of like an array of opcodes that describe extra
 * checks or actions.
 *
 * Putting all this together we end up with struct value_desc below,
 * and with a couple of macros to help, the table of struct value_desc
 * is about as concise as the specification in the old python script.
 */

static inline GLboolean
FLOAT_TO_BOOLEAN(GLfloat X)
{
   return ( (X) ? GL_TRUE : GL_FALSE );
}

static inline GLint
FLOAT_TO_FIXED(GLfloat F)
{
   return ( ((F) * 65536.0f > INT_MAX) ? INT_MAX :
            ((F) * 65536.0f < INT_MIN) ? INT_MIN :
            (GLint) ((F) * 65536.0f) );
}

static inline GLboolean
INT_TO_BOOLEAN(GLint I)
{
   return ( (I) ? GL_TRUE : GL_FALSE );
}

static inline GLfixed
INT_TO_FIXED(GLint I)
{
   return (((I) > SHRT_MAX) ? INT_MAX :
           ((I) < SHRT_MIN) ? INT_MIN :
           (GLint) ((I) * 65536) );
}


static inline GLboolean
INT64_TO_BOOLEAN(GLint64 I)
{
   return ( (I) ? GL_TRUE : GL_FALSE );
}

static inline GLint
INT64_TO_INT(GLint64 I)
{
   return ( (GLint)((I > INT_MAX) ? INT_MAX : ((I < INT_MIN) ? INT_MIN : (I))) );
}

static inline GLint
BOOLEAN_TO_INT(GLboolean B)
{
   return ( (GLint) (B) );
}

static inline GLfloat
BOOLEAN_TO_FLOAT(GLboolean B)
{
   return ( (B) ? 1.0F : 0.0F );
}

static inline GLfixed
BOOLEAN_TO_FIXED(GLboolean B)
{
   return ( (GLint) ((B) ? 1 : 0) << 16 );
}

enum value_type {
   TYPE_INVALID,
   TYPE_INT,
   TYPE_INT_2,
   TYPE_INT_3,
   TYPE_INT_4,
   TYPE_INT_N,
   TYPE_UINT,
   TYPE_UINT_2,
   TYPE_UINT_3,
   TYPE_UINT_4,
   TYPE_INT64,
   TYPE_ENUM16,
   TYPE_ENUM,
   TYPE_ENUM_2,
   TYPE_BOOLEAN,
   TYPE_UBYTE,
   TYPE_SHORT,
   TYPE_BIT_0,
   TYPE_BIT_1,
   TYPE_BIT_2,
   TYPE_BIT_3,
   TYPE_BIT_4,
   TYPE_BIT_5,
   TYPE_BIT_6,
   TYPE_BIT_7,
   TYPE_FLOAT,
   TYPE_FLOAT_2,
   TYPE_FLOAT_3,
   TYPE_FLOAT_4,
   TYPE_FLOAT_8,
   TYPE_FLOATN,
   TYPE_FLOATN_2,
   TYPE_FLOATN_3,
   TYPE_FLOATN_4,
   TYPE_DOUBLEN,
   TYPE_DOUBLEN_2,
   TYPE_MATRIX,
   TYPE_MATRIX_T,
   TYPE_CONST
};

enum value_location {
   LOC_BUFFER,
   LOC_CONTEXT,
   LOC_ARRAY,
   LOC_TEXUNIT,
   LOC_CUSTOM
};

enum value_extra {
   EXTRA_END = 0x8000,
   EXTRA_VERSION_30,
   EXTRA_VERSION_31,
   EXTRA_VERSION_32,
   EXTRA_VERSION_40,
   EXTRA_VERSION_43,
   EXTRA_API_GL,
   EXTRA_API_GL_CORE,
   EXTRA_API_ES2,
   EXTRA_API_ES3,
   EXTRA_API_ES31,
   EXTRA_API_ES32,
   EXTRA_NEW_BUFFERS,
   EXTRA_NEW_FRAG_CLAMP,
   EXTRA_VALID_DRAW_BUFFER,
   EXTRA_VALID_TEXTURE_UNIT,
   EXTRA_VALID_CLIP_DISTANCE,
   EXTRA_FLUSH_CURRENT,
   EXTRA_GLSL_130,
   EXTRA_EXT_UBO_GS,
   EXTRA_EXT_ATOMICS_GS,
   EXTRA_EXT_SHADER_IMAGE_GS,
   EXTRA_EXT_ATOMICS_TESS,
   EXTRA_EXT_SHADER_IMAGE_TESS,
   EXTRA_EXT_SSBO_GS,
   EXTRA_EXT_FB_NO_ATTACH_GS,
   EXTRA_EXT_ES_GS,
   EXTRA_EXT_PROVOKING_VERTEX_32,
};

#define NO_EXTRA NULL
#define NO_OFFSET 0

struct value_desc {
   GLenum pname;
   GLubyte location;  /**< enum value_location */
   GLubyte type;      /**< enum value_type */
   int offset;
   const int *extra;
};

union value {
   GLfloat value_float;
   GLfloat value_float_4[4];
   GLdouble value_double_2[2];
   GLmatrix *value_matrix;
   GLint value_int;
   GLint value_int_4[4];
   GLint64 value_int64;
   GLenum value_enum;
   GLubyte value_ubyte;
   GLshort value_short;
   GLuint value_uint;

   /* Sigh, see GL_COMPRESSED_TEXTURE_FORMATS_ARB handling */
   struct {
      GLint n, ints[100];
   } value_int_n;
   GLboolean value_bool;
};

#define BUFFER_FIELD(field, type) \
   LOC_BUFFER, type, offsetof(struct gl_framebuffer, field)
#define CONTEXT_FIELD(field, type) \
   LOC_CONTEXT, type, offsetof(struct gl_context, field)
#define ARRAY_FIELD(field, type) \
   LOC_ARRAY, type, offsetof(struct gl_vertex_array_object, field)
#undef CONST /* already defined through windows.h */
#define CONST(value) \
   LOC_CONTEXT, TYPE_CONST, value

#define BUFFER_INT(field) BUFFER_FIELD(field, TYPE_INT)
#define BUFFER_ENUM(field) BUFFER_FIELD(field, TYPE_ENUM)
#define BUFFER_ENUM16(field) BUFFER_FIELD(field, TYPE_ENUM16)
#define BUFFER_BOOL(field) BUFFER_FIELD(field, TYPE_BOOLEAN)

#define CONTEXT_INT(field) CONTEXT_FIELD(field, TYPE_INT)
#define CONTEXT_INT2(field) CONTEXT_FIELD(field, TYPE_INT_2)
#define CONTEXT_INT64(field) CONTEXT_FIELD(field, TYPE_INT64)
#define CONTEXT_UINT(field) CONTEXT_FIELD(field, TYPE_UINT)
#define CONTEXT_ENUM16(field) CONTEXT_FIELD(field, TYPE_ENUM16)
#define CONTEXT_ENUM(field) CONTEXT_FIELD(field, TYPE_ENUM)
#define CONTEXT_ENUM2(field) CONTEXT_FIELD(field, TYPE_ENUM_2)
#define CONTEXT_BOOL(field) CONTEXT_FIELD(field, TYPE_BOOLEAN)
#define CONTEXT_BIT0(field) CONTEXT_FIELD(field, TYPE_BIT_0)
#define CONTEXT_BIT1(field) CONTEXT_FIELD(field, TYPE_BIT_1)
#define CONTEXT_BIT2(field) CONTEXT_FIELD(field, TYPE_BIT_2)
#define CONTEXT_BIT3(field) CONTEXT_FIELD(field, TYPE_BIT_3)
#define CONTEXT_BIT4(field) CONTEXT_FIELD(field, TYPE_BIT_4)
#define CONTEXT_BIT5(field) CONTEXT_FIELD(field, TYPE_BIT_5)
#define CONTEXT_BIT6(field) CONTEXT_FIELD(field, TYPE_BIT_6)
#define CONTEXT_BIT7(field) CONTEXT_FIELD(field, TYPE_BIT_7)
#define CONTEXT_FLOAT(field) CONTEXT_FIELD(field, TYPE_FLOAT)
#define CONTEXT_FLOAT2(field) CONTEXT_FIELD(field, TYPE_FLOAT_2)
#define CONTEXT_FLOAT3(field) CONTEXT_FIELD(field, TYPE_FLOAT_3)
#define CONTEXT_FLOAT4(field) CONTEXT_FIELD(field, TYPE_FLOAT_4)
#define CONTEXT_FLOAT8(field) CONTEXT_FIELD(field, TYPE_FLOAT_8)
#define CONTEXT_MATRIX(field) CONTEXT_FIELD(field, TYPE_MATRIX)
#define CONTEXT_MATRIX_T(field) CONTEXT_FIELD(field, TYPE_MATRIX_T)

/* Vertex array fields */
#define ARRAY_INT(field) ARRAY_FIELD(field, TYPE_INT)
#define ARRAY_ENUM(field) ARRAY_FIELD(field, TYPE_ENUM)
#define ARRAY_ENUM16(field) ARRAY_FIELD(field, TYPE_ENUM16)
#define ARRAY_BOOL(field) ARRAY_FIELD(field, TYPE_BOOLEAN)
#define ARRAY_UBYTE(field) ARRAY_FIELD(field, TYPE_UBYTE)
#define ARRAY_SHORT(field) ARRAY_FIELD(field, TYPE_SHORT)

#define EXT(f)					\
   offsetof(struct gl_extensions, f)

#define EXTRA_EXT(e)				\
   static const int extra_##e[] = {		\
      EXT(e), EXTRA_END				\
   }

#define EXTRA_EXT2(e1, e2)			\
   static const int extra_##e1##_##e2[] = {	\
      EXT(e1), EXT(e2), EXTRA_END		\
   }

/* The 'extra' mechanism is a way to specify extra checks (such as
 * extensions or specific gl versions) or actions (flush current, new
 * buffers) that we need to do before looking up an enum.  We need to
 * declare them all up front so we can refer to them in the value_desc
 * structs below.
 *
 * Each EXTRA_ will be executed.  For EXTRA_* enums of extensions and API
 * versions, listing multiple ones in an array means an error will be thrown
 * only if none of them are available.  If you need to check for "AND"
 * behavior, you would need to make a custom EXTRA_ enum.
 */

static const int extra_new_buffers[] = {
   EXTRA_NEW_BUFFERS,
   EXTRA_END
};

static const int extra_new_frag_clamp[] = {
   EXTRA_NEW_FRAG_CLAMP,
   EXTRA_END
};

static const int extra_valid_draw_buffer[] = {
   EXTRA_VALID_DRAW_BUFFER,
   EXTRA_END
};

static const int extra_valid_texture_unit[] = {
   EXTRA_VALID_TEXTURE_UNIT,
   EXTRA_END
};

static const int extra_valid_clip_distance[] = {
   EXTRA_VALID_CLIP_DISTANCE,
   EXTRA_END
};

static const int extra_flush_current_valid_texture_unit[] = {
   EXTRA_FLUSH_CURRENT,
   EXTRA_VALID_TEXTURE_UNIT,
   EXTRA_END
};

static const int extra_flush_current[] = {
   EXTRA_FLUSH_CURRENT,
   EXTRA_END
};

static const int extra_EXT_texture_integer_and_new_buffers[] = {
   EXT(EXT_texture_integer),
   EXTRA_NEW_BUFFERS,
   EXTRA_END
};

static const int extra_GLSL_130_es3_gpushader4[] = {
   EXTRA_GLSL_130,
   EXTRA_API_ES3,
   EXT(EXT_gpu_shader4),
   EXTRA_END
};

static const int extra_texture_buffer_object[] = {
   EXT(ARB_texture_buffer_object),
   EXTRA_END
};

static const int extra_ARB_transform_feedback2_api_es3[] = {
   EXT(ARB_transform_feedback2),
   EXTRA_API_ES3,
   EXTRA_END
};

static const int extra_ARB_uniform_buffer_object_and_geometry_shader[] = {
   EXTRA_EXT_UBO_GS,
   EXTRA_END
};

static const int extra_ARB_ES2_compatibility_api_es2[] = {
   EXT(ARB_ES2_compatibility),
   EXTRA_API_ES2,
   EXTRA_END
};

static const int extra_ARB_ES3_compatibility_api_es3[] = {
   EXT(ARB_ES3_compatibility),
   EXTRA_API_ES3,
   EXTRA_END
};

static const int extra_EXT_framebuffer_sRGB_and_new_buffers[] = {
   EXT(EXT_framebuffer_sRGB),
   EXTRA_NEW_BUFFERS,
   EXTRA_END
};

static const int extra_EXT_packed_float[] = {
   EXT(EXT_packed_float),
   EXTRA_NEW_BUFFERS,
   EXTRA_END
};

static const int extra_EXT_texture_array_es3[] = {
   EXT(EXT_texture_array),
   EXTRA_API_ES3,
   EXTRA_END
};

static const int extra_ARB_shader_atomic_counters_and_geometry_shader[] = {
   EXTRA_EXT_ATOMICS_GS,
   EXTRA_END
};

static const int extra_ARB_shader_image_load_store_and_geometry_shader[] = {
   EXTRA_EXT_SHADER_IMAGE_GS,
   EXTRA_END
};

static const int extra_ARB_shader_atomic_counters_and_tessellation[] = {
   EXTRA_EXT_ATOMICS_TESS,
   EXTRA_END
};

static const int extra_ARB_shader_image_load_store_and_tessellation[] = {
   EXTRA_EXT_SHADER_IMAGE_TESS,
   EXTRA_END
};

/* HACK: remove when ARB_compute_shader is actually supported */
static const int extra_ARB_compute_shader_es31[] = {
   EXT(ARB_compute_shader),
   EXTRA_API_ES31,
   EXTRA_END
};

static const int extra_ARB_shader_storage_buffer_object_es31[] = {
   EXT(ARB_shader_storage_buffer_object),
   EXTRA_API_ES31,
   EXTRA_END
};

static const int extra_ARB_shader_storage_buffer_object_and_geometry_shader[] = {
   EXTRA_EXT_SSBO_GS,
   EXTRA_END
};

static const int extra_ARB_shader_image_load_store_shader_storage_buffer_object_es31[] = {
   EXT(ARB_shader_image_load_store),
   EXT(ARB_shader_storage_buffer_object),
   EXTRA_API_ES31,
   EXTRA_END
};

static const int extra_ARB_framebuffer_no_attachments_and_geometry_shader[] = {
   EXTRA_EXT_FB_NO_ATTACH_GS,
   EXTRA_END
};

static const int extra_ARB_viewport_array_or_oes_geometry_shader[] = {
   EXT(ARB_viewport_array),
   EXTRA_EXT_ES_GS,
   EXTRA_END
};

static const int extra_ARB_viewport_array_or_oes_viewport_array[] = {
   EXT(ARB_viewport_array),
   EXT(OES_viewport_array),
   EXTRA_END
};

static const int extra_ARB_gpu_shader5_or_oes_geometry_shader[] = {
   EXT(ARB_gpu_shader5),
   EXTRA_EXT_ES_GS,
   EXTRA_END
};

static const int extra_ARB_gpu_shader5_or_OES_sample_variables[] = {
   EXT(ARB_gpu_shader5),
   EXT(OES_sample_variables),
   EXTRA_END
};

static const int extra_ES32[] = {
   EXT(ARB_ES3_2_compatibility),
   EXTRA_API_ES32,
   EXTRA_END
};

static const int extra_KHR_robustness_or_GL[] = {
   EXT(KHR_robustness),
   EXTRA_API_GL,
   EXTRA_API_GL_CORE,
   EXTRA_END
};

static const int extra_INTEL_conservative_rasterization[] = {
   EXT(INTEL_conservative_rasterization),
   EXTRA_END
};

EXTRA_EXT(ARB_texture_cube_map);
EXTRA_EXT(EXT_texture_array);
EXTRA_EXT(NV_fog_distance);
EXTRA_EXT(EXT_texture_filter_anisotropic);
EXTRA_EXT(NV_point_sprite);
EXTRA_EXT(NV_texture_rectangle);
EXTRA_EXT(EXT_stencil_two_side);
EXTRA_EXT(EXT_depth_bounds_test);
EXTRA_EXT(ARB_depth_clamp);
EXTRA_EXT(AMD_depth_clamp_separate);
EXTRA_EXT(ATI_fragment_shader);
EXTRA_EXT(EXT_provoking_vertex);
EXTRA_EXT(ARB_fragment_shader);
EXTRA_EXT(ARB_fragment_program);
EXTRA_EXT2(ARB_framebuffer_object, EXT_framebuffer_multisample);
EXTRA_EXT(ARB_seamless_cube_map);
EXTRA_EXT(ARB_sync);
EXTRA_EXT(ARB_vertex_shader);
EXTRA_EXT(EXT_transform_feedback);
EXTRA_EXT(ARB_transform_feedback3);
EXTRA_EXT(EXT_pixel_buffer_object);
EXTRA_EXT(ARB_vertex_program);
EXTRA_EXT2(NV_point_sprite, ARB_point_sprite);
EXTRA_EXT2(ARB_vertex_program, ARB_fragment_program);
EXTRA_EXT(ARB_color_buffer_float);
EXTRA_EXT(EXT_framebuffer_sRGB);
EXTRA_EXT(OES_EGL_image_external);
EXTRA_EXT(ARB_blend_func_extended);
EXTRA_EXT(ARB_uniform_buffer_object);
EXTRA_EXT(ARB_timer_query);
EXTRA_EXT2(ARB_texture_cube_map_array, OES_texture_cube_map_array);
EXTRA_EXT(ARB_texture_buffer_range);
EXTRA_EXT(ARB_texture_multisample);
EXTRA_EXT(ARB_texture_gather);
EXTRA_EXT(ARB_shader_atomic_counters);
EXTRA_EXT(ARB_draw_indirect);
EXTRA_EXT(ARB_shader_image_load_store);
EXTRA_EXT(ARB_query_buffer_object);
EXTRA_EXT2(ARB_transform_feedback3, ARB_gpu_shader5);
EXTRA_EXT(INTEL_performance_query);
EXTRA_EXT(ARB_explicit_uniform_location);
EXTRA_EXT(ARB_clip_control);
EXTRA_EXT(ARB_polygon_offset_clamp);
EXTRA_EXT(ARB_framebuffer_no_attachments);
EXTRA_EXT(ARB_tessellation_shader);
EXTRA_EXT(ARB_shader_storage_buffer_object);
EXTRA_EXT(ARB_indirect_parameters);
EXTRA_EXT(ATI_meminfo);
EXTRA_EXT(NVX_gpu_memory_info);
EXTRA_EXT(ARB_cull_distance);
EXTRA_EXT(EXT_window_rectangles);
EXTRA_EXT(KHR_blend_equation_advanced_coherent);
EXTRA_EXT(OES_primitive_bounding_box);
EXTRA_EXT(ARB_compute_variable_group_size);
EXTRA_EXT(KHR_robustness);
EXTRA_EXT(ARB_sparse_buffer);
EXTRA_EXT(NV_conservative_raster);
EXTRA_EXT(NV_conservative_raster_dilate);
EXTRA_EXT(NV_conservative_raster_pre_snap_triangles);
EXTRA_EXT(ARB_sample_locations);
EXTRA_EXT(AMD_framebuffer_multisample_advanced);
EXTRA_EXT(ARB_spirv_extensions);
EXTRA_EXT(NV_viewport_swizzle);

static const int
extra_ARB_color_buffer_float_or_glcore[] = {
   EXT(ARB_color_buffer_float),
   EXTRA_API_GL_CORE,
   EXTRA_END
};

static const int
extra_NV_primitive_restart[] = {
   EXT(NV_primitive_restart),
   EXTRA_END
};

static const int extra_version_30[] = { EXTRA_VERSION_30, EXTRA_END };
static const int extra_version_31[] = { EXTRA_VERSION_31, EXTRA_END };
static const int extra_version_32[] = { EXTRA_VERSION_32, EXTRA_END };
static const int extra_version_43[] = { EXTRA_VERSION_43, EXTRA_END };

static const int extra_gl30_es3[] = {
    EXTRA_VERSION_30,
    EXTRA_API_ES3,
    EXTRA_END,
};

static const int extra_gl32_es3[] = {
    EXTRA_VERSION_32,
    EXTRA_API_ES3,
    EXTRA_END,
};

static const int extra_version_32_OES_geometry_shader[] = {
    EXTRA_VERSION_32,
    EXTRA_EXT_ES_GS,
    EXTRA_END
};

static const int extra_gl40_ARB_sample_shading[] = {
   EXTRA_VERSION_40,
   EXT(ARB_sample_shading),
   EXTRA_END
};

static const int
extra_ARB_vertex_program_api_es2[] = {
   EXT(ARB_vertex_program),
   EXTRA_API_ES2,
   EXTRA_END
};

/* The ReadBuffer get token is valid under either full GL or under
 * GLES2 if the NV_read_buffer extension is available. */
static const int
extra_NV_read_buffer_api_gl[] = {
   EXTRA_API_ES2,
   EXTRA_API_GL,
   EXTRA_END
};

static const int extra_core_ARB_color_buffer_float_and_new_buffers[] = {
   EXTRA_API_GL_CORE,
   EXT(ARB_color_buffer_float),
   EXTRA_NEW_BUFFERS,
   EXTRA_END
};

static const int extra_EXT_shader_framebuffer_fetch[] = {
   EXTRA_API_ES2,
   EXTRA_API_ES3,
   EXT(EXT_shader_framebuffer_fetch),
   EXTRA_END
};

static const int extra_EXT_provoking_vertex_32[] = {
   EXTRA_EXT_PROVOKING_VERTEX_32,
   EXTRA_END
};

static const int extra_EXT_disjoint_timer_query[] = {
   EXTRA_API_ES2,
   EXTRA_API_ES3,
   EXT(EXT_disjoint_timer_query),
   EXTRA_END
};


/* This is the big table describing all the enums we accept in
 * glGet*v().  The table is partitioned into six parts: enums
 * understood by all GL APIs (OpenGL, GLES and GLES2), enums shared
 * between OpenGL and GLES, enums exclusive to GLES, etc for the
 * remaining combinations. To look up the enums valid in a given API
 * we will use a hash table specific to that API. These tables are in
 * turn generated at build time and included through get_hash.h.
 */

#include "get_hash.h"

/* All we need now is a way to look up the value struct from the enum.
 * The code generated by gcc for the old generated big switch
 * statement is a big, balanced, open coded if/else tree, essentially
 * an unrolled binary search.  It would be natural to sort the new
 * enum table and use bsearch(), but we will use a read-only hash
 * table instead.  bsearch() has a nice guaranteed worst case
 * performance, but we're also guaranteed to hit that worst case
 * (log2(n) iterations) for about half the enums.  Instead, using an
 * open addressing hash table, we can find the enum on the first try
 * for 80% of the enums, 1 collision for 10% and never more than 5
 * collisions for any enum (typical numbers).  And the code is very
 * simple, even though it feels a little magic. */

/**
 * Handle irregular enums
 *
 * Some values don't conform to the "well-known type at context
 * pointer + offset" pattern, so we have this function to catch all
 * the corner cases.  Typically, it's a computed value or a one-off
 * pointer to a custom struct or something.
 *
 * In this case we can't return a pointer to the value, so we'll have
 * to use the temporary variable 'v' declared back in the calling
 * glGet*v() function to store the result.
 *
 * \param ctx the current context
 * \param d the struct value_desc that describes the enum
 * \param v pointer to the tmp declared in the calling glGet*v() function
 */
static void
find_custom_value(struct gl_context *ctx, const struct value_desc *d, union value *v)
{
   struct gl_buffer_object **buffer_obj, *buf;
   struct gl_array_attributes *array;
   GLuint unit, *p;

   switch (d->pname) {
   case GL_MAJOR_VERSION:
      v->value_int = ctx->Version / 10;
      break;
   case GL_MINOR_VERSION:
      v->value_int = ctx->Version % 10;
      break;

   case GL_TEXTURE_1D:
   case GL_TEXTURE_2D:
   case GL_TEXTURE_3D:
   case GL_TEXTURE_CUBE_MAP:
   case GL_TEXTURE_RECTANGLE_NV:
   case GL_TEXTURE_EXTERNAL_OES:
      v->value_bool = _mesa_IsEnabled(d->pname);
      break;

   case GL_LINE_STIPPLE_PATTERN:
      /* This is the only GLushort, special case it here by promoting
       * to an int rather than introducing a new type. */
      v->value_int = ctx->Line.StipplePattern;
      break;

   case GL_CURRENT_RASTER_TEXTURE_COORDS:
      unit = ctx->Texture.CurrentUnit;
      v->value_float_4[0] = ctx->Current.RasterTexCoords[unit][0];
      v->value_float_4[1] = ctx->Current.RasterTexCoords[unit][1];
      v->value_float_4[2] = ctx->Current.RasterTexCoords[unit][2];
      v->value_float_4[3] = ctx->Current.RasterTexCoords[unit][3];
      break;

   case GL_CURRENT_TEXTURE_COORDS:
      unit = ctx->Texture.CurrentUnit;
      v->value_float_4[0] = ctx->Current.Attrib[VERT_ATTRIB_TEX0 + unit][0];
      v->value_float_4[1] = ctx->Current.Attrib[VERT_ATTRIB_TEX0 + unit][1];
      v->value_float_4[2] = ctx->Current.Attrib[VERT_ATTRIB_TEX0 + unit][2];
      v->value_float_4[3] = ctx->Current.Attrib[VERT_ATTRIB_TEX0 + unit][3];
      break;

   case GL_COLOR_WRITEMASK:
      v->value_int_4[0] = GET_COLORMASK_BIT(ctx->Color.ColorMask, 0, 0);
      v->value_int_4[1] = GET_COLORMASK_BIT(ctx->Color.ColorMask, 0, 1);
      v->value_int_4[2] = GET_COLORMASK_BIT(ctx->Color.ColorMask, 0, 2);
      v->value_int_4[3] = GET_COLORMASK_BIT(ctx->Color.ColorMask, 0, 3);
      break;

   case GL_DEPTH_CLAMP:
      v->value_bool = ctx->Transform.DepthClampNear || ctx->Transform.DepthClampFar;
      break;

   case GL_EDGE_FLAG:
      v->value_bool = ctx->Current.Attrib[VERT_ATTRIB_EDGEFLAG][0] == 1.0F;
      break;

   case GL_READ_BUFFER:
      v->value_enum = ctx->ReadBuffer->ColorReadBuffer;
      break;

   case GL_MAP2_GRID_DOMAIN:
      v->value_float_4[0] = ctx->Eval.MapGrid2u1;
      v->value_float_4[1] = ctx->Eval.MapGrid2u2;
      v->value_float_4[2] = ctx->Eval.MapGrid2v1;
      v->value_float_4[3] = ctx->Eval.MapGrid2v2;
      break;

   case GL_TEXTURE_STACK_DEPTH:
      unit = ctx->Texture.CurrentUnit;
      v->value_int = ctx->TextureMatrixStack[unit].Depth + 1;
      break;
   case GL_TEXTURE_MATRIX:
      unit = ctx->Texture.CurrentUnit;
      v->value_matrix = ctx->TextureMatrixStack[unit].Top;
      break;

   case GL_VERTEX_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_POS);
      break;
   case GL_NORMAL_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_NORMAL);
      break;
   case GL_COLOR_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_COLOR0);
      break;
   case GL_TEXTURE_COORD_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_TEX(ctx->Array.ActiveTexture));
      break;
   case GL_INDEX_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_COLOR_INDEX);
      break;
   case GL_EDGE_FLAG_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_EDGEFLAG);
      break;
   case GL_SECONDARY_COLOR_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_COLOR1);
      break;
   case GL_FOG_COORDINATE_ARRAY:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_FOG);
      break;
   case GL_POINT_SIZE_ARRAY_OES:
      v->value_bool = !!(ctx->Array.VAO->Enabled & VERT_BIT_POINT_SIZE);
      break;

   case GL_TEXTURE_COORD_ARRAY_TYPE:
   case GL_TEXTURE_COORD_ARRAY_STRIDE:
      array = &ctx->Array.VAO->VertexAttrib[VERT_ATTRIB_TEX(ctx->Array.ActiveTexture)];
      v->value_int = *(GLuint *) ((char *) array + d->offset);
      break;

   case GL_TEXTURE_COORD_ARRAY_SIZE:
      array = &ctx->Array.VAO->VertexAttrib[VERT_ATTRIB_TEX(ctx->Array.ActiveTexture)];
      v->value_int = array->Format.Size;
      break;

   case GL_VERTEX_ARRAY_SIZE:
      array = &ctx->Array.VAO->VertexAttrib[VERT_ATTRIB_POS];
      v->value_int = array->Format.Size;
      break;

   case GL_ACTIVE_TEXTURE_ARB:
      v->value_int = GL_TEXTURE0_ARB + ctx->Texture.CurrentUnit;
      break;
   case GL_CLIENT_ACTIVE_TEXTURE_ARB:
      v->value_int = GL_TEXTURE0_ARB + ctx->Array.ActiveTexture;
      break;

   case GL_MODELVIEW_STACK_DEPTH:
   case GL_PROJECTION_STACK_DEPTH:
      v->value_int = *(GLint *) ((char *) ctx + d->offset) + 1;
      break;

   case GL_MAX_TEXTURE_SIZE:
   case GL_MAX_3D_TEXTURE_SIZE:
   case GL_MAX_CUBE_MAP_TEXTURE_SIZE_ARB:
      p = (GLuint *) ((char *) ctx + d->offset);
      v->value_int = 1 << (*p - 1);
      break;

   case GL_SCISSOR_BOX:
      v->value_int_4[0] = ctx->Scissor.ScissorArray[0].X;
      v->value_int_4[1] = ctx->Scissor.ScissorArray[0].Y;
      v->value_int_4[2] = ctx->Scissor.ScissorArray[0].Width;
      v->value_int_4[3] = ctx->Scissor.ScissorArray[0].Height;
      break;

   case GL_SCISSOR_TEST:
      v->value_bool = ctx->Scissor.EnableFlags & 1;
      break;

   case GL_LIST_INDEX:
      v->value_int =
         ctx->ListState.CurrentList ? ctx->ListState.CurrentList->Name : 0;
      break;
   case GL_LIST_MODE:
      if (!ctx->CompileFlag)
         v->value_enum = 0;
      else if (ctx->ExecuteFlag)
         v->value_enum = GL_COMPILE_AND_EXECUTE;
      else
         v->value_enum = GL_COMPILE;
      break;

   case GL_VIEWPORT:
      v->value_float_4[0] = ctx->ViewportArray[0].X;
      v->value_float_4[1] = ctx->ViewportArray[0].Y;
      v->value_float_4[2] = ctx->ViewportArray[0].Width;
      v->value_float_4[3] = ctx->ViewportArray[0].Height;
      break;

   case GL_DEPTH_RANGE:
      v->value_double_2[0] = ctx->ViewportArray[0].Near;
      v->value_double_2[1] = ctx->ViewportArray[0].Far;
      break;

   case GL_ACTIVE_STENCIL_FACE_EXT:
      v->value_enum = ctx->Stencil.ActiveFace ? GL_BACK : GL_FRONT;
      break;

   case GL_STENCIL_FAIL:
      v->value_enum = ctx->Stencil.FailFunc[ctx->Stencil.ActiveFace];
      break;
   case GL_STENCIL_FUNC:
      v->value_enum = ctx->Stencil.Function[ctx->Stencil.ActiveFace];
      break;
   case GL_STENCIL_PASS_DEPTH_FAIL:
      v->value_enum = ctx->Stencil.ZFailFunc[ctx->Stencil.ActiveFace];
      break;
   case GL_STENCIL_PASS_DEPTH_PASS:
      v->value_enum = ctx->Stencil.ZPassFunc[ctx->Stencil.ActiveFace];
      break;
   case GL_STENCIL_REF:
      v->value_int = _mesa_get_stencil_ref(ctx, ctx->Stencil.ActiveFace);
      break;
   case GL_STENCIL_BACK_REF:
      v->value_int = _mesa_get_stencil_ref(ctx, 1);
      break;
   case GL_STENCIL_VALUE_MASK:
      v->value_int = ctx->Stencil.ValueMask[ctx->Stencil.ActiveFace];
      break;
   case GL_STENCIL_WRITEMASK:
      v->value_int = ctx->Stencil.WriteMask[ctx->Stencil.ActiveFace];
      break;

   case GL_NUM_EXTENSIONS:
      v->value_int = _mesa_get_extension_count(ctx);
      break;

   case GL_IMPLEMENTATION_COLOR_READ_TYPE_OES:
      v->value_int = _mesa_get_color_read_type(ctx, NULL, "glGetIntegerv");
      break;
   case GL_IMPLEMENTATION_COLOR_READ_FORMAT_OES:
      v->value_int = _mesa_get_color_read_format(ctx, NULL, "glGetIntegerv");
      break;

   case GL_CURRENT_MATRIX_STACK_DEPTH_ARB:
      v->value_int = ctx->CurrentStack->Depth + 1;
      break;
   case GL_CURRENT_MATRIX_ARB:
   case GL_TRANSPOSE_CURRENT_MATRIX_ARB:
      v->value_matrix = ctx->CurrentStack->Top;
      break;

   case GL_NUM_COMPRESSED_TEXTURE_FORMATS_ARB:
      v->value_int = _mesa_get_compressed_formats(ctx, NULL);
      break;
   case GL_COMPRESSED_TEXTURE_FORMATS_ARB:
      v->value_int_n.n =
         _mesa_get_compressed_formats(ctx, v->value_int_n.ints);
      assert(v->value_int_n.n <= (int) ARRAY_SIZE(v->value_int_n.ints));
      break;

   case GL_MAX_VARYING_FLOATS_ARB:
      v->value_int = ctx->Const.MaxVarying * 4;
      break;

   /* Various object names */

   case GL_TEXTURE_BINDING_1D:
   case GL_TEXTURE_BINDING_2D:
   case GL_TEXTURE_BINDING_3D:
   case GL_TEXTURE_BINDING_1D_ARRAY_EXT:
   case GL_TEXTURE_BINDING_2D_ARRAY_EXT:
   case GL_TEXTURE_BINDING_CUBE_MAP_ARB:
   case GL_TEXTURE_BINDING_RECTANGLE_NV:
   case GL_TEXTURE_BINDING_EXTERNAL_OES:
   case GL_TEXTURE_BINDING_CUBE_MAP_ARRAY:
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE:
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE_ARRAY:
      unit = ctx->Texture.CurrentUnit;
      v->value_int =
         ctx->Texture.Unit[unit].CurrentTex[d->offset]->Name;
      break;

   /* GL_EXT_external_objects */
   case GL_NUM_DEVICE_UUIDS_EXT:
      v->value_int = 1;
      break;
   case GL_DRIVER_UUID_EXT:
      _mesa_get_driver_uuid(ctx, v->value_int_4);
      break;
   case GL_DEVICE_UUID_EXT:
      _mesa_get_device_uuid(ctx, v->value_int_4);
      break;

   /* GL_EXT_packed_float */
   case GL_RGBA_SIGNED_COMPONENTS_EXT:
      {
         /* Note: we only check the 0th color attachment. */
         const struct gl_renderbuffer *rb =
            ctx->DrawBuffer->_ColorDrawBuffers[0];
         if (rb && _mesa_is_format_signed(rb->Format)) {
            /* Issue 17 of GL_EXT_packed_float:  If a component (such as
             * alpha) has zero bits, the component should not be considered
             * signed and so the bit for the respective component should be
             * zeroed.
             */
            GLint r_bits =
               _mesa_get_format_bits(rb->Format, GL_RED_BITS);
            GLint g_bits =
               _mesa_get_format_bits(rb->Format, GL_GREEN_BITS);
            GLint b_bits =
               _mesa_get_format_bits(rb->Format, GL_BLUE_BITS);
            GLint a_bits =
               _mesa_get_format_bits(rb->Format, GL_ALPHA_BITS);
            GLint l_bits =
               _mesa_get_format_bits(rb->Format, GL_TEXTURE_LUMINANCE_SIZE);
            GLint i_bits =
               _mesa_get_format_bits(rb->Format, GL_TEXTURE_INTENSITY_SIZE);

            v->value_int_4[0] = r_bits + l_bits + i_bits > 0;
            v->value_int_4[1] = g_bits + l_bits + i_bits > 0;
            v->value_int_4[2] = b_bits + l_bits + i_bits > 0;
            v->value_int_4[3] = a_bits + i_bits > 0;
         }
         else {
            v->value_int_4[0] =
            v->value_int_4[1] =
            v->value_int_4[2] =
            v->value_int_4[3] = 0;
         }
      }
      break;

   /* GL_ARB_vertex_buffer_object */
   case GL_VERTEX_ARRAY_BUFFER_BINDING_ARB:
   case GL_NORMAL_ARRAY_BUFFER_BINDING_ARB:
   case GL_COLOR_ARRAY_BUFFER_BINDING_ARB:
   case GL_INDEX_ARRAY_BUFFER_BINDING_ARB:
   case GL_EDGE_FLAG_ARRAY_BUFFER_BINDING_ARB:
   case GL_SECONDARY_COLOR_ARRAY_BUFFER_BINDING_ARB:
   case GL_FOG_COORDINATE_ARRAY_BUFFER_BINDING_ARB:
      buffer_obj = (struct gl_buffer_object **)
         ((char *) ctx->Array.VAO + d->offset);
      v->value_int = (*buffer_obj) ? (*buffer_obj)->Name : 0;
      break;
   case GL_ARRAY_BUFFER_BINDING_ARB:
      buf = ctx->Array.ArrayBufferObj;
      v->value_int = buf ? buf->Name : 0;
      break;
   case GL_TEXTURE_COORD_ARRAY_BUFFER_BINDING_ARB:
      buf = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_TEX(ctx->Array.ActiveTexture)].BufferObj;
      v->value_int = buf ? buf->Name : 0;
      break;
   case GL_ELEMENT_ARRAY_BUFFER_BINDING_ARB:
      buf = ctx->Array.VAO->IndexBufferObj;
      v->value_int = buf ? buf->Name : 0;
      break;

   /* ARB_vertex_array_bgra */
   case GL_COLOR_ARRAY_SIZE:
      array = &ctx->Array.VAO->VertexAttrib[VERT_ATTRIB_COLOR0];
      v->value_int = array->Format.Format == GL_BGRA ? GL_BGRA : array->Format.Size;
      break;
   case GL_SECONDARY_COLOR_ARRAY_SIZE:
      array = &ctx->Array.VAO->VertexAttrib[VERT_ATTRIB_COLOR1];
      v->value_int = array->Format.Format == GL_BGRA ? GL_BGRA : array->Format.Size;
      break;

   /* ARB_copy_buffer */
   case GL_COPY_READ_BUFFER:
      v->value_int = ctx->CopyReadBuffer ? ctx->CopyReadBuffer->Name : 0;
      break;
   case GL_COPY_WRITE_BUFFER:
      v->value_int = ctx->CopyWriteBuffer ? ctx->CopyWriteBuffer->Name : 0;
      break;

   case GL_PIXEL_PACK_BUFFER_BINDING_EXT:
      v->value_int = ctx->Pack.BufferObj ? ctx->Pack.BufferObj->Name : 0;
      break;
   case GL_PIXEL_UNPACK_BUFFER_BINDING_EXT:
      v->value_int = ctx->Unpack.BufferObj ? ctx->Unpack.BufferObj->Name : 0;
      break;
   case GL_TRANSFORM_FEEDBACK_BUFFER_BINDING:
      v->value_int = ctx->TransformFeedback.CurrentBuffer ?
                        ctx->TransformFeedback.CurrentBuffer->Name : 0;
      break;
   case GL_TRANSFORM_FEEDBACK_BUFFER_PAUSED:
      v->value_int = ctx->TransformFeedback.CurrentObject->Paused;
      break;
   case GL_TRANSFORM_FEEDBACK_BUFFER_ACTIVE:
      v->value_int = ctx->TransformFeedback.CurrentObject->Active;
      break;
   case GL_TRANSFORM_FEEDBACK_BINDING:
      v->value_int = ctx->TransformFeedback.CurrentObject->Name;
      break;
   case GL_CURRENT_PROGRAM:
      /* The Changelog of the ARB_separate_shader_objects spec says:
       *
       * 24 25 Jul 2011  pbrown  Remove the language erroneously deleting
       *                         CURRENT_PROGRAM.  In the EXT extension, this
       *                         token was aliased to ACTIVE_PROGRAM_EXT, and
       *                         was used to indicate the last program set by
       *                         either ActiveProgramEXT or UseProgram.  In
       *                         the ARB extension, the SSO active programs
       *                         are now program pipeline object state and
       *                         CURRENT_PROGRAM should still be used to query
       *                         the last program set by UseProgram (bug 7822).
       */
      v->value_int =
         ctx->Shader.ActiveProgram ? ctx->Shader.ActiveProgram->Name : 0;
      break;
   case GL_READ_FRAMEBUFFER_BINDING_EXT:
      v->value_int = ctx->ReadBuffer->Name;
      break;
   case GL_RENDERBUFFER_BINDING_EXT:
      v->value_int =
         ctx->CurrentRenderbuffer ? ctx->CurrentRenderbuffer->Name : 0;
      break;
   case GL_POINT_SIZE_ARRAY_BUFFER_BINDING_OES:
      buf = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_POINT_SIZE].BufferObj;
      v->value_int = buf ? buf->Name : 0;
      break;

   case GL_FOG_COLOR:
      if (_mesa_get_clamp_fragment_color(ctx, ctx->DrawBuffer))
         COPY_4FV(v->value_float_4, ctx->Fog.Color);
      else
         COPY_4FV(v->value_float_4, ctx->Fog.ColorUnclamped);
      break;
   case GL_COLOR_CLEAR_VALUE:
      if (_mesa_get_clamp_fragment_color(ctx, ctx->DrawBuffer)) {
         v->value_float_4[0] = CLAMP(ctx->Color.ClearColor.f[0], 0.0F, 1.0F);
         v->value_float_4[1] = CLAMP(ctx->Color.ClearColor.f[1], 0.0F, 1.0F);
         v->value_float_4[2] = CLAMP(ctx->Color.ClearColor.f[2], 0.0F, 1.0F);
         v->value_float_4[3] = CLAMP(ctx->Color.ClearColor.f[3], 0.0F, 1.0F);
      } else
         COPY_4FV(v->value_float_4, ctx->Color.ClearColor.f);
      break;
   case GL_BLEND_COLOR_EXT:
      if (_mesa_get_clamp_fragment_color(ctx, ctx->DrawBuffer))
         COPY_4FV(v->value_float_4, ctx->Color.BlendColor);
      else
         COPY_4FV(v->value_float_4, ctx->Color.BlendColorUnclamped);
      break;
   case GL_ALPHA_TEST_REF:
      if (_mesa_get_clamp_fragment_color(ctx, ctx->DrawBuffer))
         v->value_float = ctx->Color.AlphaRef;
      else
         v->value_float = ctx->Color.AlphaRefUnclamped;
      break;
   case GL_MAX_VERTEX_UNIFORM_VECTORS:
      v->value_int = ctx->Const.Program[MESA_SHADER_VERTEX].MaxUniformComponents / 4;
      break;

   case GL_MAX_FRAGMENT_UNIFORM_VECTORS:
      v->value_int = ctx->Const.Program[MESA_SHADER_FRAGMENT].MaxUniformComponents / 4;
      break;

   /* GL_ARB_texture_buffer_object */
   case GL_TEXTURE_BUFFER_ARB:
      v->value_int = ctx->Texture.BufferObject ? ctx->Texture.BufferObject->Name : 0;
      break;
   case GL_TEXTURE_BINDING_BUFFER_ARB:
      unit = ctx->Texture.CurrentUnit;
      v->value_int =
         ctx->Texture.Unit[unit].CurrentTex[TEXTURE_BUFFER_INDEX]->Name;
      break;
   case GL_TEXTURE_BUFFER_DATA_STORE_BINDING_ARB:
      {
         struct gl_buffer_object *buf =
            ctx->Texture.Unit[ctx->Texture.CurrentUnit]
            .CurrentTex[TEXTURE_BUFFER_INDEX]->BufferObject;
         v->value_int = buf ? buf->Name : 0;
      }
      break;
   case GL_TEXTURE_BUFFER_FORMAT_ARB:
      v->value_int = ctx->Texture.Unit[ctx->Texture.CurrentUnit]
         .CurrentTex[TEXTURE_BUFFER_INDEX]->BufferObjectFormat;
      break;

   /* GL_ARB_sampler_objects */
   case GL_SAMPLER_BINDING:
      {
         struct gl_sampler_object *samp =
            ctx->Texture.Unit[ctx->Texture.CurrentUnit].Sampler;
         v->value_int = samp ? samp->Name : 0;
      }
      break;
   /* GL_ARB_uniform_buffer_object */
   case GL_UNIFORM_BUFFER_BINDING:
      v->value_int = ctx->UniformBuffer ? ctx->UniformBuffer->Name : 0;
      break;
   /* GL_ARB_shader_storage_buffer_object */
   case GL_SHADER_STORAGE_BUFFER_BINDING:
      v->value_int = ctx->ShaderStorageBuffer ? ctx->ShaderStorageBuffer->Name : 0;
      break;
   /* GL_ARB_query_buffer_object */
   case GL_QUERY_BUFFER_BINDING:
      v->value_int = ctx->QueryBuffer ? ctx->QueryBuffer->Name : 0;
      break;
   /* GL_ARB_timer_query */
   case GL_TIMESTAMP:
      if (ctx->Driver.GetTimestamp) {
         v->value_int64 = ctx->Driver.GetTimestamp(ctx);
      }
      else {
         _mesa_problem(ctx, "driver doesn't implement GetTimestamp");
      }
      break;
   /* GL_KHR_DEBUG */
   case GL_DEBUG_OUTPUT:
   case GL_DEBUG_OUTPUT_SYNCHRONOUS:
   case GL_DEBUG_LOGGED_MESSAGES:
   case GL_DEBUG_NEXT_LOGGED_MESSAGE_LENGTH:
   case GL_DEBUG_GROUP_STACK_DEPTH:
      v->value_int = _mesa_get_debug_state_int(ctx, d->pname);
      break;
   /* GL_ARB_shader_atomic_counters */
   case GL_ATOMIC_COUNTER_BUFFER_BINDING:
      v->value_int = ctx->AtomicBuffer ? ctx->AtomicBuffer->Name : 0;
      break;
   /* GL 4.3 */
   case GL_NUM_SHADING_LANGUAGE_VERSIONS:
      v->value_int = _mesa_get_shading_language_version(ctx, -1, NULL);
      break;
   /* GL_ARB_draw_indirect */
   case GL_DRAW_INDIRECT_BUFFER_BINDING:
      v->value_int = ctx->DrawIndirectBuffer ? ctx->DrawIndirectBuffer->Name: 0;
      break;
   /* GL_ARB_indirect_parameters */
   case GL_PARAMETER_BUFFER_BINDING_ARB:
      v->value_int = ctx->ParameterBuffer ? ctx->ParameterBuffer->Name : 0;
      break;
   /* GL_ARB_separate_shader_objects */
   case GL_PROGRAM_PIPELINE_BINDING:
      if (ctx->Pipeline.Current) {
         v->value_int = ctx->Pipeline.Current->Name;
      } else {
         v->value_int = 0;
      }
      break;
   /* GL_ARB_compute_shader */
   case GL_DISPATCH_INDIRECT_BUFFER_BINDING:
      v->value_int = ctx->DispatchIndirectBuffer ?
                        ctx->DispatchIndirectBuffer->Name : 0;
      break;
   /* GL_ARB_multisample */
   case GL_SAMPLES:
      v->value_int = _mesa_geometric_samples(ctx->DrawBuffer);
      break;
   case GL_SAMPLE_BUFFERS:
      v->value_int = _mesa_geometric_samples(ctx->DrawBuffer) > 0;
      break;
   /* GL_EXT_textrue_integer */
   case GL_RGBA_INTEGER_MODE_EXT:
      v->value_int = (ctx->DrawBuffer->_IntegerBuffers != 0);
      break;
   /* GL_ATI_meminfo & GL_NVX_gpu_memory_info */
   case GL_VBO_FREE_MEMORY_ATI:
   case GL_TEXTURE_FREE_MEMORY_ATI:
   case GL_RENDERBUFFER_FREE_MEMORY_ATI:
   case GL_GPU_MEMORY_INFO_DEDICATED_VIDMEM_NVX:
   case GL_GPU_MEMORY_INFO_TOTAL_AVAILABLE_MEMORY_NVX:
   case GL_GPU_MEMORY_INFO_CURRENT_AVAILABLE_VIDMEM_NVX:
   case GL_GPU_MEMORY_INFO_EVICTION_COUNT_NVX:
   case GL_GPU_MEMORY_INFO_EVICTED_MEMORY_NVX:
      {
         struct gl_memory_info info;

         ctx->Driver.QueryMemoryInfo(ctx, &info);

         if (d->pname == GL_GPU_MEMORY_INFO_DEDICATED_VIDMEM_NVX)
            v->value_int = info.total_device_memory;
         else if (d->pname == GL_GPU_MEMORY_INFO_TOTAL_AVAILABLE_MEMORY_NVX)
            v->value_int = info.total_device_memory +
                           info.total_staging_memory;
         else if (d->pname == GL_GPU_MEMORY_INFO_CURRENT_AVAILABLE_VIDMEM_NVX)
            v->value_int = info.avail_device_memory;
         else if (d->pname == GL_GPU_MEMORY_INFO_EVICTION_COUNT_NVX)
            v->value_int = info.nr_device_memory_evictions;
         else if (d->pname == GL_GPU_MEMORY_INFO_EVICTED_MEMORY_NVX)
            v->value_int = info.device_memory_evicted;
         else {
            /* ATI free memory enums.
             *
             * Since the GPU memory is (usually) page-table based, every two
             * consecutive elements are equal. From the GL_ATI_meminfo
             * specification:
             *
             *    "param[0] - total memory free in the pool
             *     param[1] - largest available free block in the pool
             *     param[2] - total auxiliary memory free
             *     param[3] - largest auxiliary free block"
             *
             * All three (VBO, TEXTURE, RENDERBUFFER) queries return
             * the same numbers here.
             */
            v->value_int_4[0] = info.avail_device_memory;
            v->value_int_4[1] = info.avail_device_memory;
            v->value_int_4[2] = info.avail_staging_memory;
            v->value_int_4[3] = info.avail_staging_memory;
         }
      }
      break;

   /* GL_ARB_get_program_binary */
   case GL_PROGRAM_BINARY_FORMATS:
      assert(ctx->Const.NumProgramBinaryFormats <= 1);
      v->value_int_n.n = MIN2(ctx->Const.NumProgramBinaryFormats, 1);
      if (ctx->Const.NumProgramBinaryFormats > 0) {
         v->value_int_n.ints[0] = GL_PROGRAM_BINARY_FORMAT_MESA;
      }
      break;
   /* ARB_spirv_extensions */
   case GL_NUM_SPIR_V_EXTENSIONS:
      v->value_int = _mesa_get_spirv_extension_count(ctx);
      break;
   /* GL_EXT_disjoint_timer_query */
   case GL_GPU_DISJOINT_EXT:
      {
         simple_mtx_lock(&ctx->Shared->Mutex);
         v->value_int = ctx->Shared->DisjointOperation;
         /* Reset state as expected by the spec. */
         ctx->Shared->DisjointOperation = false;
         simple_mtx_unlock(&ctx->Shared->Mutex);
      }
      break;
   /* GL_ARB_sample_locations */
   case GL_SAMPLE_LOCATION_SUBPIXEL_BITS_ARB:
   case GL_SAMPLE_LOCATION_PIXEL_GRID_WIDTH_ARB:
   case GL_SAMPLE_LOCATION_PIXEL_GRID_HEIGHT_ARB:
      {
         GLuint bits, width, height;

         if (ctx->NewState & _NEW_BUFFERS)
            _mesa_update_state(ctx);

         if (ctx->DrawBuffer->_Status != GL_FRAMEBUFFER_COMPLETE) {
            v->value_uint = 0;
            break;
         }

         ctx->Driver.GetProgrammableSampleCaps(ctx, ctx->DrawBuffer,
                                               &bits, &width, &height);

         if (d->pname == GL_SAMPLE_LOCATION_PIXEL_GRID_WIDTH_ARB)
            v->value_uint = width;
         else if (d->pname == GL_SAMPLE_LOCATION_PIXEL_GRID_HEIGHT_ARB)
            v->value_uint = height;
         else
            v->value_uint = bits;
      }
      break;
   case GL_PROGRAMMABLE_SAMPLE_LOCATION_TABLE_SIZE_ARB:
      v->value_uint = MAX_SAMPLE_LOCATION_TABLE_SIZE;
      break;

   /* GL_AMD_framebuffer_multisample_advanced */
   case GL_SUPPORTED_MULTISAMPLE_MODES_AMD:
      v->value_int_n.n = ctx->Const.NumSupportedMultisampleModes * 3;
      memcpy(v->value_int_n.ints, ctx->Const.SupportedMultisampleModes,
             v->value_int_n.n * sizeof(GLint));
      break;

   /* GL_NV_viewport_swizzle */
   case GL_VIEWPORT_SWIZZLE_X_NV:
      v->value_enum = ctx->ViewportArray[0].SwizzleX;
      break;
   case GL_VIEWPORT_SWIZZLE_Y_NV:
      v->value_enum = ctx->ViewportArray[0].SwizzleY;
      break;
   case GL_VIEWPORT_SWIZZLE_Z_NV:
      v->value_enum = ctx->ViewportArray[0].SwizzleZ;
      break;
   case GL_VIEWPORT_SWIZZLE_W_NV:
      v->value_enum = ctx->ViewportArray[0].SwizzleW;
      break;
   }
}

/**
 * Check extra constraints on a struct value_desc descriptor
 *
 * If a struct value_desc has a non-NULL extra pointer, it means that
 * there are a number of extra constraints to check or actions to
 * perform.  The extras is just an integer array where each integer
 * encode different constraints or actions.
 *
 * \param ctx current context
 * \param func name of calling glGet*v() function for error reporting
 * \param d the struct value_desc that has the extra constraints
 *
 * \return GL_FALSE if all of the constraints were not satisfied,
 *     otherwise GL_TRUE.
 */
static GLboolean
check_extra(struct gl_context *ctx, const char *func, const struct value_desc *d)
{
   const GLuint version = ctx->Version;
   GLboolean api_check = GL_FALSE;
   GLboolean api_found = GL_FALSE;
   const int *e;

   for (e = d->extra; *e != EXTRA_END; e++) {
      switch (*e) {
      case EXTRA_VERSION_30:
         api_check = GL_TRUE;
         if (version >= 30)
            api_found = GL_TRUE;
         break;
      case EXTRA_VERSION_31:
         api_check = GL_TRUE;
         if (version >= 31)
            api_found = GL_TRUE;
         break;
      case EXTRA_VERSION_32:
         api_check = GL_TRUE;
         if (version >= 32)
            api_found = GL_TRUE;
         break;
      case EXTRA_VERSION_40:
         api_check = GL_TRUE;
         if (version >= 40)
            api_found = GL_TRUE;
         break;
      case EXTRA_VERSION_43:
         api_check = GL_TRUE;
         if (_mesa_is_desktop_gl(ctx) && version >= 43)
            api_found = GL_TRUE;
         break;
      case EXTRA_NEW_FRAG_CLAMP:
         if (ctx->NewState & (_NEW_BUFFERS | _NEW_FRAG_CLAMP))
            _mesa_update_state(ctx);
         break;
      case EXTRA_API_ES2:
         api_check = GL_TRUE;
         if (ctx->API == API_OPENGLES2)
            api_found = GL_TRUE;
         break;
      case EXTRA_API_ES3:
         api_check = GL_TRUE;
         if (_mesa_is_gles3(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_API_ES31:
         api_check = GL_TRUE;
         if (_mesa_is_gles31(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_API_ES32:
         api_check = GL_TRUE;
         if (_mesa_is_gles32(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_API_GL:
         api_check = GL_TRUE;
         if (_mesa_is_desktop_gl(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_API_GL_CORE:
         api_check = GL_TRUE;
         if (ctx->API == API_OPENGL_CORE)
            api_found = GL_TRUE;
         break;
      case EXTRA_NEW_BUFFERS:
         if (ctx->NewState & _NEW_BUFFERS)
            _mesa_update_state(ctx);
         break;
      case EXTRA_FLUSH_CURRENT:
         FLUSH_CURRENT(ctx, 0);
         break;
      case EXTRA_VALID_DRAW_BUFFER:
         if (d->pname - GL_DRAW_BUFFER0_ARB >= ctx->Const.MaxDrawBuffers) {
            _mesa_error(ctx, GL_INVALID_OPERATION, "%s(draw buffer %u)",
                        func, d->pname - GL_DRAW_BUFFER0_ARB);
            return GL_FALSE;
         }
         break;
      case EXTRA_VALID_TEXTURE_UNIT:
         if (ctx->Texture.CurrentUnit >= ctx->Const.MaxTextureCoordUnits) {
            _mesa_error(ctx, GL_INVALID_OPERATION, "%s(texture %u)",
                        func, ctx->Texture.CurrentUnit);
            return GL_FALSE;
         }
         break;
      case EXTRA_VALID_CLIP_DISTANCE:
         if (d->pname - GL_CLIP_DISTANCE0 >= ctx->Const.MaxClipPlanes) {
            _mesa_error(ctx, GL_INVALID_ENUM, "%s(clip distance %u)",
                        func, d->pname - GL_CLIP_DISTANCE0);
            return GL_FALSE;
         }
         break;
      case EXTRA_GLSL_130:
         api_check = GL_TRUE;
         if (ctx->Const.GLSLVersion >= 130)
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_UBO_GS:
         api_check = GL_TRUE;
         if (ctx->Extensions.ARB_uniform_buffer_object &&
            _mesa_has_geometry_shaders(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_ATOMICS_GS:
         api_check = GL_TRUE;
         if (ctx->Extensions.ARB_shader_atomic_counters &&
            _mesa_has_geometry_shaders(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_SHADER_IMAGE_GS:
         api_check = GL_TRUE;
         if (ctx->Extensions.ARB_shader_image_load_store &&
            _mesa_has_geometry_shaders(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_ATOMICS_TESS:
         api_check = GL_TRUE;
         api_found = ctx->Extensions.ARB_shader_atomic_counters &&
                     _mesa_has_tessellation(ctx);
         break;
      case EXTRA_EXT_SHADER_IMAGE_TESS:
         api_check = GL_TRUE;
         api_found = ctx->Extensions.ARB_shader_image_load_store &&
                     _mesa_has_tessellation(ctx);
         break;
      case EXTRA_EXT_SSBO_GS:
         api_check = GL_TRUE;
         if (ctx->Extensions.ARB_shader_storage_buffer_object &&
            _mesa_has_geometry_shaders(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_FB_NO_ATTACH_GS:
         api_check = GL_TRUE;
         if (ctx->Extensions.ARB_framebuffer_no_attachments &&
            (_mesa_is_desktop_gl(ctx) ||
            _mesa_has_OES_geometry_shader(ctx)))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_ES_GS:
         api_check = GL_TRUE;
         if (_mesa_has_OES_geometry_shader(ctx))
            api_found = GL_TRUE;
         break;
      case EXTRA_EXT_PROVOKING_VERTEX_32:
         api_check = GL_TRUE;
         if (ctx->API == API_OPENGL_COMPAT || version == 32)
            api_found = ctx->Extensions.EXT_provoking_vertex;
         break;
      case EXTRA_END:
         break;
      default: /* *e is a offset into the extension struct */
         api_check = GL_TRUE;
         if (*(GLboolean *) ((char *) &ctx->Extensions + *e))
            api_found = GL_TRUE;
         break;
      }
   }

   if (api_check && !api_found) {
      _mesa_error(ctx, GL_INVALID_ENUM, "%s(pname=%s)", func,
                  _mesa_enum_to_string(d->pname));
      return GL_FALSE;
   }

   return GL_TRUE;
}

static const struct value_desc error_value =
   { 0, 0, TYPE_INVALID, NO_OFFSET, NO_EXTRA };

/**
 * Find the struct value_desc corresponding to the enum 'pname'.
 *
 * We hash the enum value to get an index into the 'table' array,
 * which holds the index in the 'values' array of struct value_desc.
 * Once we've found the entry, we do the extra checks, if any, then
 * look up the value and return a pointer to it.
 *
 * If the value has to be computed (for example, it's the result of a
 * function call or we need to add 1 to it), we use the tmp 'v' to
 * store the result.
 *
 * \param func name of glGet*v() func for error reporting
 * \param pname the enum value we're looking up
 * \param p is were we return the pointer to the value
 * \param v a tmp union value variable in the calling glGet*v() function
 *
 * \return the struct value_desc corresponding to the enum or a struct
 *     value_desc of TYPE_INVALID if not found.  This lets the calling
 *     glGet*v() function jump right into a switch statement and
 *     handle errors there instead of having to check for NULL.
 */
static const struct value_desc *
find_value(const char *func, GLenum pname, void **p, union value *v)
{
   GET_CURRENT_CONTEXT(ctx);
   int mask, hash;
   const struct value_desc *d;
   int api;

   *p = NULL;

   api = ctx->API;
   /* We index into the table_set[] list of per-API hash tables using the API's
    * value in the gl_api enum. Since GLES 3 doesn't have an API_OPENGL* enum
    * value since it's compatible with GLES2 its entry in table_set[] is at the
    * end.
    */
   STATIC_ASSERT(ARRAY_SIZE(table_set) == API_OPENGL_LAST + 4);
   if (ctx->API == API_OPENGLES2) {
      if (ctx->Version >= 32)
         api = API_OPENGL_LAST + 3;
      else if (ctx->Version >= 31)
         api = API_OPENGL_LAST + 2;
      else if (ctx->Version >= 30)
         api = API_OPENGL_LAST + 1;
   }
   mask = ARRAY_SIZE(table(api)) - 1;
   hash = (pname * prime_factor);
   while (1) {
      int idx = table(api)[hash & mask];

      /* If the enum isn't valid, the hash walk ends with index 0,
       * pointing to the first entry of values[] which doesn't hold
       * any valid enum. */
      if (unlikely(idx == 0)) {
         _mesa_error(ctx, GL_INVALID_ENUM, "%s(pname=%s)", func,
               _mesa_enum_to_string(pname));
         return &error_value;
      }

      d = &values[idx];
      if (likely(d->pname == pname))
         break;

      hash += prime_step;
   }

   if (unlikely(d->extra && !check_extra(ctx, func, d)))
      return &error_value;

   switch (d->location) {
   case LOC_BUFFER:
      *p = ((char *) ctx->DrawBuffer + d->offset);
      return d;
   case LOC_CONTEXT:
      *p = ((char *) ctx + d->offset);
      return d;
   case LOC_ARRAY:
      *p = ((char *) ctx->Array.VAO + d->offset);
      return d;
   case LOC_TEXUNIT:
      if (ctx->Texture.CurrentUnit < ARRAY_SIZE(ctx->Texture.FixedFuncUnit)) {
         unsigned index = ctx->Texture.CurrentUnit;
         *p = ((char *)&ctx->Texture.FixedFuncUnit[index] + d->offset);
      }
      return d;
   case LOC_CUSTOM:
      find_custom_value(ctx, d, v);
      *p = v;
      return d;
   default:
      assert(0);
      break;
   }

   /* silence warning */
   return &error_value;
}

static const int transpose[] = {
   0, 4,  8, 12,
   1, 5,  9, 13,
   2, 6, 10, 14,
   3, 7, 11, 15
};

static GLsizei
get_value_size(enum value_type type, const union value *v)
{
   switch (type) {
   case TYPE_INVALID:
      return 0;
   case TYPE_CONST:
   case TYPE_UINT:
   case TYPE_INT:
      return sizeof(GLint);
   case TYPE_INT_2:
   case TYPE_UINT_2:
      return sizeof(GLint) * 2;
   case TYPE_INT_3:
   case TYPE_UINT_3:
      return sizeof(GLint) * 3;
   case TYPE_INT_4:
   case TYPE_UINT_4:
      return sizeof(GLint) * 4;
   case TYPE_INT_N:
      return sizeof(GLint) * v->value_int_n.n;
   case TYPE_INT64:
      return sizeof(GLint64);
      break;
   case TYPE_ENUM16:
      return sizeof(GLenum16);
   case TYPE_ENUM:
      return sizeof(GLenum);
   case TYPE_ENUM_2:
      return sizeof(GLenum) * 2;
   case TYPE_BOOLEAN:
      return sizeof(GLboolean);
   case TYPE_UBYTE:
      return sizeof(GLubyte);
   case TYPE_SHORT:
      return sizeof(GLshort);
   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      return 1;
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      return sizeof(GLfloat);
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      return sizeof(GLfloat) * 2;
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      return sizeof(GLfloat) * 3;
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      return sizeof(GLfloat) * 4;
   case TYPE_FLOAT_8:
      return sizeof(GLfloat) * 8;
   case TYPE_DOUBLEN:
      return sizeof(GLdouble);
   case TYPE_DOUBLEN_2:
      return sizeof(GLdouble) * 2;
   case TYPE_MATRIX:
      return sizeof (GLfloat) * 16;
   case TYPE_MATRIX_T:
      return sizeof (GLfloat) * 16;
   default:
      return -1;
   }
}

void GLAPIENTRY
_mesa_GetBooleanv(GLenum pname, GLboolean *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetBooleanv", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = INT_TO_BOOLEAN(d->offset);
      break;

   case TYPE_FLOAT_8:
      params[7] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[7]);
      params[6] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[6]);
      params[5] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[5]);
      params[4] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[4]);
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[3]);
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[2]);
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[1]);
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = FLOAT_TO_BOOLEAN(((GLfloat *) p)[0]);
      break;

   case TYPE_DOUBLEN_2:
      params[1] = FLOAT_TO_BOOLEAN(((GLdouble *) p)[1]);
   case TYPE_DOUBLEN:
      params[0] = FLOAT_TO_BOOLEAN(((GLdouble *) p)[0]);
      break;

   case TYPE_INT_4:
   case TYPE_UINT_4:
      params[3] = INT_TO_BOOLEAN(((GLint *) p)[3]);
   case TYPE_INT_3:
   case TYPE_UINT_3:
      params[2] = INT_TO_BOOLEAN(((GLint *) p)[2]);
   case TYPE_INT_2:
   case TYPE_UINT_2:
   case TYPE_ENUM_2:
      params[1] = INT_TO_BOOLEAN(((GLint *) p)[1]);
   case TYPE_INT:
   case TYPE_UINT:
   case TYPE_ENUM:
      params[0] = INT_TO_BOOLEAN(((GLint *) p)[0]);
      break;

   case TYPE_ENUM16:
      params[0] = INT_TO_BOOLEAN(((GLenum16 *) p)[0]);
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = INT_TO_BOOLEAN(v.value_int_n.ints[i]);
      break;

   case TYPE_INT64:
      params[0] = INT64_TO_BOOLEAN(((GLint64 *) p)[0]);
      break;

   case TYPE_BOOLEAN:
      params[0] = ((GLboolean*) p)[0];
      break;

   case TYPE_UBYTE:
      params[0] = INT_TO_BOOLEAN(((GLubyte *) p)[0]);
      break;

   case TYPE_SHORT:
      params[0] = INT_TO_BOOLEAN(((GLshort *) p)[0]);
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_BOOLEAN(m->m[i]);
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_BOOLEAN(m->m[transpose[i]]);
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = (*(GLbitfield *) p >> shift) & 1;
      break;
   }
}

void GLAPIENTRY
_mesa_GetFloatv(GLenum pname, GLfloat *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetFloatv", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = (GLfloat) d->offset;
      break;

   case TYPE_FLOAT_8:
      params[7] = ((GLfloat *) p)[7];
      params[6] = ((GLfloat *) p)[6];
      params[5] = ((GLfloat *) p)[5];
      params[4] = ((GLfloat *) p)[4];
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = ((GLfloat *) p)[3];
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = ((GLfloat *) p)[2];
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = ((GLfloat *) p)[1];
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = ((GLfloat *) p)[0];
      break;

   case TYPE_DOUBLEN_2:
      params[1] = (GLfloat) (((GLdouble *) p)[1]);
   case TYPE_DOUBLEN:
      params[0] = (GLfloat) (((GLdouble *) p)[0]);
      break;

   case TYPE_INT_4:
      params[3] = (GLfloat) (((GLint *) p)[3]);
   case TYPE_INT_3:
      params[2] = (GLfloat) (((GLint *) p)[2]);
   case TYPE_INT_2:
   case TYPE_ENUM_2:
      params[1] = (GLfloat) (((GLint *) p)[1]);
   case TYPE_INT:
   case TYPE_ENUM:
      params[0] = (GLfloat) (((GLint *) p)[0]);
      break;

   case TYPE_ENUM16:
      params[0] = (GLfloat) (((GLenum16 *) p)[0]);
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = (GLfloat) v.value_int_n.ints[i];
      break;

   case TYPE_UINT_4:
      params[3] = (GLfloat) (((GLuint *) p)[3]);
   case TYPE_UINT_3:
      params[2] = (GLfloat) (((GLuint *) p)[2]);
   case TYPE_UINT_2:
      params[1] = (GLfloat) (((GLuint *) p)[1]);
   case TYPE_UINT:
      params[0] = (GLfloat) (((GLuint *) p)[0]);
      break;

   case TYPE_INT64:
      params[0] = (GLfloat) (((GLint64 *) p)[0]);
      break;

   case TYPE_BOOLEAN:
      params[0] = BOOLEAN_TO_FLOAT(*(GLboolean*) p);
      break;

   case TYPE_UBYTE:
      params[0] = (GLfloat) ((GLubyte *) p)[0];
      break;

   case TYPE_SHORT:
      params[0] = (GLfloat) ((GLshort *) p)[0];
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = m->m[i];
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = m->m[transpose[i]];
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = BOOLEAN_TO_FLOAT((*(GLbitfield *) p >> shift) & 1);
      break;
   }
}

void GLAPIENTRY
_mesa_GetIntegerv(GLenum pname, GLint *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetIntegerv", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = d->offset;
      break;

   case TYPE_FLOAT_8:
      params[7] = IROUND(((GLfloat *) p)[7]);
      params[6] = IROUND(((GLfloat *) p)[6]);
      params[5] = IROUND(((GLfloat *) p)[5]);
      params[4] = IROUND(((GLfloat *) p)[4]);
   case TYPE_FLOAT_4:
      params[3] = IROUND(((GLfloat *) p)[3]);
   case TYPE_FLOAT_3:
      params[2] = IROUND(((GLfloat *) p)[2]);
   case TYPE_FLOAT_2:
      params[1] = IROUND(((GLfloat *) p)[1]);
   case TYPE_FLOAT:
      params[0] = IROUND(((GLfloat *) p)[0]);
      break;

   case TYPE_FLOATN_4:
      params[3] = FLOAT_TO_INT(((GLfloat *) p)[3]);
   case TYPE_FLOATN_3:
      params[2] = FLOAT_TO_INT(((GLfloat *) p)[2]);
   case TYPE_FLOATN_2:
      params[1] = FLOAT_TO_INT(((GLfloat *) p)[1]);
   case TYPE_FLOATN:
      params[0] = FLOAT_TO_INT(((GLfloat *) p)[0]);
      break;

   case TYPE_DOUBLEN_2:
      params[1] = FLOAT_TO_INT(((GLdouble *) p)[1]);
   case TYPE_DOUBLEN:
      params[0] = FLOAT_TO_INT(((GLdouble *) p)[0]);
      break;

   case TYPE_INT_4:
   case TYPE_UINT_4:
      params[3] = ((GLint *) p)[3];
   case TYPE_INT_3:
   case TYPE_UINT_3:
      params[2] = ((GLint *) p)[2];
   case TYPE_INT_2:
   case TYPE_UINT_2:
   case TYPE_ENUM_2:
      params[1] = ((GLint *) p)[1];
   case TYPE_INT:
   case TYPE_UINT:
   case TYPE_ENUM:
      params[0] = ((GLint *) p)[0];
      break;

   case TYPE_ENUM16:
      params[0] = ((GLenum16 *) p)[0];
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = v.value_int_n.ints[i];
      break;

   case TYPE_INT64:
      params[0] = INT64_TO_INT(((GLint64 *) p)[0]);
      break;

   case TYPE_BOOLEAN:
      params[0] = BOOLEAN_TO_INT(*(GLboolean*) p);
      break;

   case TYPE_UBYTE:
      params[0] = ((GLubyte *) p)[0];
      break;

   case TYPE_SHORT:
      params[0] = ((GLshort *) p)[0];
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_INT(m->m[i]);
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_INT(m->m[transpose[i]]);
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = (*(GLbitfield *) p >> shift) & 1;
      break;
   }
}

void GLAPIENTRY
_mesa_GetInteger64v(GLenum pname, GLint64 *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetInteger64v", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = d->offset;
      break;

   case TYPE_FLOAT_8:
      params[7] = IROUND64(((GLfloat *) p)[7]);
      params[6] = IROUND64(((GLfloat *) p)[6]);
      params[5] = IROUND64(((GLfloat *) p)[5]);
      params[4] = IROUND64(((GLfloat *) p)[4]);
   case TYPE_FLOAT_4:
      params[3] = IROUND64(((GLfloat *) p)[3]);
   case TYPE_FLOAT_3:
      params[2] = IROUND64(((GLfloat *) p)[2]);
   case TYPE_FLOAT_2:
      params[1] = IROUND64(((GLfloat *) p)[1]);
   case TYPE_FLOAT:
      params[0] = IROUND64(((GLfloat *) p)[0]);
      break;

   case TYPE_FLOATN_4:
      params[3] = FLOAT_TO_INT(((GLfloat *) p)[3]);
   case TYPE_FLOATN_3:
      params[2] = FLOAT_TO_INT(((GLfloat *) p)[2]);
   case TYPE_FLOATN_2:
      params[1] = FLOAT_TO_INT(((GLfloat *) p)[1]);
   case TYPE_FLOATN:
      params[0] = FLOAT_TO_INT(((GLfloat *) p)[0]);
      break;

   case TYPE_DOUBLEN_2:
      params[1] = FLOAT_TO_INT(((GLdouble *) p)[1]);
   case TYPE_DOUBLEN:
      params[0] = FLOAT_TO_INT(((GLdouble *) p)[0]);
      break;

   case TYPE_INT_4:
      params[3] = ((GLint *) p)[3];
   case TYPE_INT_3:
      params[2] = ((GLint *) p)[2];
   case TYPE_INT_2:
   case TYPE_ENUM_2:
      params[1] = ((GLint *) p)[1];
   case TYPE_INT:
   case TYPE_ENUM:
      params[0] = ((GLint *) p)[0];
      break;

   case TYPE_ENUM16:
      params[0] = ((GLenum16 *) p)[0];
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = v.value_int_n.ints[i];
      break;

   case TYPE_UINT_4:
      params[3] = ((GLuint *) p)[3];
   case TYPE_UINT_3:
      params[2] = ((GLuint *) p)[2];
   case TYPE_UINT_2:
      params[1] = ((GLuint *) p)[1];
   case TYPE_UINT:
      params[0] = ((GLuint *) p)[0];
      break;

   case TYPE_INT64:
      params[0] = ((GLint64 *) p)[0];
      break;

   case TYPE_BOOLEAN:
      params[0] = ((GLboolean*) p)[0];
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_INT64(m->m[i]);
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_INT64(m->m[transpose[i]]);
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = (*(GLbitfield *) p >> shift) & 1;
      break;
   }
}

void GLAPIENTRY
_mesa_GetDoublev(GLenum pname, GLdouble *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetDoublev", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = d->offset;
      break;

   case TYPE_FLOAT_8:
      params[7] = ((GLfloat *) p)[7];
      params[6] = ((GLfloat *) p)[6];
      params[5] = ((GLfloat *) p)[5];
      params[4] = ((GLfloat *) p)[4];
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = ((GLfloat *) p)[3];
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = ((GLfloat *) p)[2];
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = ((GLfloat *) p)[1];
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = ((GLfloat *) p)[0];
      break;

   case TYPE_DOUBLEN_2:
      params[1] = ((GLdouble *) p)[1];
   case TYPE_DOUBLEN:
      params[0] = ((GLdouble *) p)[0];
      break;

   case TYPE_INT_4:
      params[3] = ((GLint *) p)[3];
   case TYPE_INT_3:
      params[2] = ((GLint *) p)[2];
   case TYPE_INT_2:
   case TYPE_ENUM_2:
      params[1] = ((GLint *) p)[1];
   case TYPE_INT:
   case TYPE_ENUM:
      params[0] = ((GLint *) p)[0];
      break;

   case TYPE_ENUM16:
      params[0] = ((GLenum16 *) p)[0];
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = v.value_int_n.ints[i];
      break;

   case TYPE_UINT_4:
      params[3] = ((GLuint *) p)[3];
   case TYPE_UINT_3:
      params[2] = ((GLuint *) p)[2];
   case TYPE_UINT_2:
      params[1] = ((GLuint *) p)[1];
   case TYPE_UINT:
      params[0] = ((GLuint *) p)[0];
      break;

   case TYPE_INT64:
      params[0] = (GLdouble) (((GLint64 *) p)[0]);
      break;

   case TYPE_BOOLEAN:
      params[0] = *(GLboolean*) p;
      break;

   case TYPE_UBYTE:
      params[0] = ((GLubyte *) p)[0];
      break;

   case TYPE_SHORT:
      params[0] = ((GLshort *) p)[0];
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = m->m[i];
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = m->m[transpose[i]];
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = (*(GLbitfield *) p >> shift) & 1;
      break;
   }
}

void GLAPIENTRY
_mesa_GetUnsignedBytevEXT(GLenum pname, GLubyte *data)
{
   const struct value_desc *d;
   union value v;
   int shift;
   void *p = NULL;
   GLsizei size;
   const char *func = "glGetUnsignedBytevEXT";

   GET_CURRENT_CONTEXT(ctx);

   if (!ctx->Extensions.EXT_memory_object) {
      _mesa_error(ctx, GL_INVALID_OPERATION, "%s(unsupported)", func);
      return;
   }

   d = find_value(func, pname, &p, &v);
   size = get_value_size(d->type, &v);
   if (size <= 0) {
      _mesa_problem(ctx, "invalid value type in GetUnsignedBytevEXT()");
   }

   switch (d->type) {
   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      data[0] = (*(GLbitfield *) p >> shift) & 1;
      break;
   case TYPE_CONST:
      memcpy(data, &d->offset, size);
      break;
   case TYPE_INT_N:
      memcpy(data, &v.value_int_n.ints, size);
      break;
   case TYPE_UINT:
   case TYPE_INT:
   case TYPE_INT_2:
   case TYPE_UINT_2:
   case TYPE_INT_3:
   case TYPE_UINT_3:
   case TYPE_INT_4:
   case TYPE_UINT_4:
   case TYPE_INT64:
   case TYPE_ENUM:
   case TYPE_ENUM_2:
   case TYPE_BOOLEAN:
   case TYPE_UBYTE:
   case TYPE_SHORT:
   case TYPE_FLOAT:
   case TYPE_FLOATN:
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
   case TYPE_FLOAT_8:
   case TYPE_DOUBLEN:
   case TYPE_DOUBLEN_2:
   case TYPE_MATRIX:
   case TYPE_MATRIX_T:
      memcpy(data, p, size);
      break;
   case TYPE_ENUM16: {
      GLenum e = *(GLenum16 *)p;
      memcpy(data, &e, sizeof(e));
      break;
   }
   default:
      break; /* nothing - GL error was recorded */
   }
}

/**
 * Convert a GL texture binding enum such as GL_TEXTURE_BINDING_2D
 * into the corresponding Mesa texture target index.
 * \return TEXTURE_x_INDEX or -1 if binding is invalid
 */
static int
tex_binding_to_index(const struct gl_context *ctx, GLenum binding)
{
   switch (binding) {
   case GL_TEXTURE_BINDING_1D:
      return _mesa_is_desktop_gl(ctx) ? TEXTURE_1D_INDEX : -1;
   case GL_TEXTURE_BINDING_2D:
      return TEXTURE_2D_INDEX;
   case GL_TEXTURE_BINDING_3D:
      return ctx->API != API_OPENGLES ? TEXTURE_3D_INDEX : -1;
   case GL_TEXTURE_BINDING_CUBE_MAP:
      return ctx->Extensions.ARB_texture_cube_map
         ? TEXTURE_CUBE_INDEX : -1;
   case GL_TEXTURE_BINDING_RECTANGLE:
      return _mesa_is_desktop_gl(ctx) && ctx->Extensions.NV_texture_rectangle
         ? TEXTURE_RECT_INDEX : -1;
   case GL_TEXTURE_BINDING_1D_ARRAY:
      return _mesa_is_desktop_gl(ctx) && ctx->Extensions.EXT_texture_array
         ? TEXTURE_1D_ARRAY_INDEX : -1;
   case GL_TEXTURE_BINDING_2D_ARRAY:
      return (_mesa_is_desktop_gl(ctx) && ctx->Extensions.EXT_texture_array)
         || _mesa_is_gles3(ctx)
         ? TEXTURE_2D_ARRAY_INDEX : -1;
   case GL_TEXTURE_BINDING_BUFFER:
      return (_mesa_has_ARB_texture_buffer_object(ctx) ||
              _mesa_has_OES_texture_buffer(ctx)) ?
             TEXTURE_BUFFER_INDEX : -1;
   case GL_TEXTURE_BINDING_CUBE_MAP_ARRAY:
      return _mesa_has_texture_cube_map_array(ctx)
         ? TEXTURE_CUBE_ARRAY_INDEX : -1;
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE:
      return _mesa_is_desktop_gl(ctx) && ctx->Extensions.ARB_texture_multisample
         ? TEXTURE_2D_MULTISAMPLE_INDEX : -1;
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE_ARRAY:
      return _mesa_is_desktop_gl(ctx) && ctx->Extensions.ARB_texture_multisample
         ? TEXTURE_2D_MULTISAMPLE_ARRAY_INDEX : -1;
   default:
      return -1;
   }
}

static enum value_type
find_value_indexed(const char *func, GLenum pname, GLuint index, union value *v)
{
   GET_CURRENT_CONTEXT(ctx);
   struct gl_buffer_object *buf;

   switch (pname) {

   case GL_BLEND:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.EXT_draw_buffers2)
         goto invalid_enum;
      v->value_int = (ctx->Color.BlendEnabled >> index) & 1;
      return TYPE_INT;

   case GL_BLEND_SRC:
      /* fall-through */
   case GL_BLEND_SRC_RGB:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].SrcRGB;
      return TYPE_INT;
   case GL_BLEND_SRC_ALPHA:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].SrcA;
      return TYPE_INT;
   case GL_BLEND_DST:
      /* fall-through */
   case GL_BLEND_DST_RGB:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].DstRGB;
      return TYPE_INT;
   case GL_BLEND_DST_ALPHA:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].DstA;
      return TYPE_INT;
   case GL_BLEND_EQUATION_RGB:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].EquationRGB;
      return TYPE_INT;
   case GL_BLEND_EQUATION_ALPHA:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.ARB_draw_buffers_blend)
         goto invalid_enum;
      v->value_int = ctx->Color.Blend[index].EquationA;
      return TYPE_INT;

   case GL_COLOR_WRITEMASK:
      if (index >= ctx->Const.MaxDrawBuffers)
         goto invalid_value;
      if (!ctx->Extensions.EXT_draw_buffers2)
         goto invalid_enum;
      v->value_int_4[0] = GET_COLORMASK_BIT(ctx->Color.ColorMask, index, 0);
      v->value_int_4[1] = GET_COLORMASK_BIT(ctx->Color.ColorMask, index, 1);
      v->value_int_4[2] = GET_COLORMASK_BIT(ctx->Color.ColorMask, index, 2);
      v->value_int_4[3] = GET_COLORMASK_BIT(ctx->Color.ColorMask, index, 3);
      return TYPE_INT_4;

   case GL_SCISSOR_BOX:
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_int_4[0] = ctx->Scissor.ScissorArray[index].X;
      v->value_int_4[1] = ctx->Scissor.ScissorArray[index].Y;
      v->value_int_4[2] = ctx->Scissor.ScissorArray[index].Width;
      v->value_int_4[3] = ctx->Scissor.ScissorArray[index].Height;
      return TYPE_INT_4;

   case GL_WINDOW_RECTANGLE_EXT:
      if (!ctx->Extensions.EXT_window_rectangles)
         goto invalid_enum;
      if (index >= ctx->Const.MaxWindowRectangles)
         goto invalid_value;
      v->value_int_4[0] = ctx->Scissor.WindowRects[index].X;
      v->value_int_4[1] = ctx->Scissor.WindowRects[index].Y;
      v->value_int_4[2] = ctx->Scissor.WindowRects[index].Width;
      v->value_int_4[3] = ctx->Scissor.WindowRects[index].Height;
      return TYPE_INT_4;

   case GL_VIEWPORT:
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_float_4[0] = ctx->ViewportArray[index].X;
      v->value_float_4[1] = ctx->ViewportArray[index].Y;
      v->value_float_4[2] = ctx->ViewportArray[index].Width;
      v->value_float_4[3] = ctx->ViewportArray[index].Height;
      return TYPE_FLOAT_4;

   case GL_DEPTH_RANGE:
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_double_2[0] = ctx->ViewportArray[index].Near;
      v->value_double_2[1] = ctx->ViewportArray[index].Far;
      return TYPE_DOUBLEN_2;

   case GL_TRANSFORM_FEEDBACK_BUFFER_START:
      if (index >= ctx->Const.MaxTransformFeedbackBuffers)
         goto invalid_value;
      if (!ctx->Extensions.EXT_transform_feedback)
         goto invalid_enum;
      v->value_int64 = ctx->TransformFeedback.CurrentObject->Offset[index];
      return TYPE_INT64;

   case GL_TRANSFORM_FEEDBACK_BUFFER_SIZE:
      if (index >= ctx->Const.MaxTransformFeedbackBuffers)
         goto invalid_value;
      if (!ctx->Extensions.EXT_transform_feedback)
         goto invalid_enum;
      v->value_int64
         = ctx->TransformFeedback.CurrentObject->RequestedSize[index];
      return TYPE_INT64;

   case GL_TRANSFORM_FEEDBACK_BUFFER_BINDING:
      if (index >= ctx->Const.MaxTransformFeedbackBuffers)
         goto invalid_value;
      if (!ctx->Extensions.EXT_transform_feedback)
         goto invalid_enum;
      v->value_int = ctx->TransformFeedback.CurrentObject->BufferNames[index];
      return TYPE_INT;

   case GL_UNIFORM_BUFFER_BINDING:
      if (index >= ctx->Const.MaxUniformBufferBindings)
         goto invalid_value;
      if (!ctx->Extensions.ARB_uniform_buffer_object)
         goto invalid_enum;
      buf = ctx->UniformBufferBindings[index].BufferObject;
      v->value_int = buf ? buf->Name : 0;
      return TYPE_INT;

   case GL_UNIFORM_BUFFER_START:
      if (index >= ctx->Const.MaxUniformBufferBindings)
         goto invalid_value;
      if (!ctx->Extensions.ARB_uniform_buffer_object)
         goto invalid_enum;
      v->value_int = ctx->UniformBufferBindings[index].Offset < 0 ? 0 :
                     ctx->UniformBufferBindings[index].Offset;
      return TYPE_INT;

   case GL_UNIFORM_BUFFER_SIZE:
      if (index >= ctx->Const.MaxUniformBufferBindings)
         goto invalid_value;
      if (!ctx->Extensions.ARB_uniform_buffer_object)
         goto invalid_enum;
      v->value_int = ctx->UniformBufferBindings[index].Size < 0 ? 0 :
                     ctx->UniformBufferBindings[index].Size;
      return TYPE_INT;

   /* ARB_shader_storage_buffer_object */
   case GL_SHADER_STORAGE_BUFFER_BINDING:
      if (!ctx->Extensions.ARB_shader_storage_buffer_object)
         goto invalid_enum;
      if (index >= ctx->Const.MaxShaderStorageBufferBindings)
         goto invalid_value;
      buf = ctx->ShaderStorageBufferBindings[index].BufferObject;
      v->value_int = buf ? buf->Name : 0;
      return TYPE_INT;

   case GL_SHADER_STORAGE_BUFFER_START:
      if (!ctx->Extensions.ARB_shader_storage_buffer_object)
         goto invalid_enum;
      if (index >= ctx->Const.MaxShaderStorageBufferBindings)
         goto invalid_value;
      v->value_int = ctx->ShaderStorageBufferBindings[index].Offset < 0 ? 0 :
                     ctx->ShaderStorageBufferBindings[index].Offset;
      return TYPE_INT;

   case GL_SHADER_STORAGE_BUFFER_SIZE:
      if (!ctx->Extensions.ARB_shader_storage_buffer_object)
         goto invalid_enum;
      if (index >= ctx->Const.MaxShaderStorageBufferBindings)
         goto invalid_value;
      v->value_int = ctx->ShaderStorageBufferBindings[index].Size < 0 ? 0 :
                     ctx->ShaderStorageBufferBindings[index].Size;
      return TYPE_INT;

   /* ARB_texture_multisample / GL3.2 */
   case GL_SAMPLE_MASK_VALUE:
      if (index != 0)
         goto invalid_value;
      if (!ctx->Extensions.ARB_texture_multisample)
         goto invalid_enum;
      v->value_int = ctx->Multisample.SampleMaskValue;
      return TYPE_INT;

   case GL_ATOMIC_COUNTER_BUFFER_BINDING:
      if (!ctx->Extensions.ARB_shader_atomic_counters)
         goto invalid_enum;
      if (index >= ctx->Const.MaxAtomicBufferBindings)
         goto invalid_value;
      buf = ctx->AtomicBufferBindings[index].BufferObject;
      v->value_int = buf ? buf->Name : 0;
      return TYPE_INT;

   case GL_ATOMIC_COUNTER_BUFFER_START:
      if (!ctx->Extensions.ARB_shader_atomic_counters)
         goto invalid_enum;
      if (index >= ctx->Const.MaxAtomicBufferBindings)
         goto invalid_value;
      v->value_int64 = ctx->AtomicBufferBindings[index].Offset < 0 ? 0 :
                       ctx->AtomicBufferBindings[index].Offset;
      return TYPE_INT64;

   case GL_ATOMIC_COUNTER_BUFFER_SIZE:
      if (!ctx->Extensions.ARB_shader_atomic_counters)
         goto invalid_enum;
      if (index >= ctx->Const.MaxAtomicBufferBindings)
         goto invalid_value;
      v->value_int64 = ctx->AtomicBufferBindings[index].Size < 0 ? 0 :
                       ctx->AtomicBufferBindings[index].Size;
      return TYPE_INT64;

   case GL_VERTEX_BINDING_DIVISOR:
      if ((!_mesa_is_desktop_gl(ctx) || !ctx->Extensions.ARB_instanced_arrays) &&
          !_mesa_is_gles31(ctx))
          goto invalid_enum;
      if (index >= ctx->Const.Program[MESA_SHADER_VERTEX].MaxAttribs)
          goto invalid_value;
      v->value_int = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_GENERIC(index)].InstanceDivisor;
      return TYPE_INT;

   case GL_VERTEX_BINDING_OFFSET:
      if (!_mesa_is_desktop_gl(ctx) && !_mesa_is_gles31(ctx))
          goto invalid_enum;
      if (index >= ctx->Const.Program[MESA_SHADER_VERTEX].MaxAttribs)
          goto invalid_value;
      v->value_int = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_GENERIC(index)].Offset;
      return TYPE_INT;

   case GL_VERTEX_BINDING_STRIDE:
      if (!_mesa_is_desktop_gl(ctx) && !_mesa_is_gles31(ctx))
          goto invalid_enum;
      if (index >= ctx->Const.Program[MESA_SHADER_VERTEX].MaxAttribs)
          goto invalid_value;
      v->value_int = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_GENERIC(index)].Stride;
      return TYPE_INT;

   case GL_VERTEX_BINDING_BUFFER:
      if (ctx->API == API_OPENGLES2 && ctx->Version < 31)
         goto invalid_enum;
      if (index >= ctx->Const.Program[MESA_SHADER_VERTEX].MaxAttribs)
         goto invalid_value;
      buf = ctx->Array.VAO->BufferBinding[VERT_ATTRIB_GENERIC(index)].BufferObj;
      v->value_int = buf ? buf->Name : 0;
      return TYPE_INT;

   /* ARB_shader_image_load_store */
   case GL_IMAGE_BINDING_NAME: {
      struct gl_texture_object *t;

      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      t = ctx->ImageUnits[index].TexObj;
      v->value_int = (t ? t->Name : 0);
      return TYPE_INT;
   }

   case GL_IMAGE_BINDING_LEVEL:
      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      v->value_int = ctx->ImageUnits[index].Level;
      return TYPE_INT;

   case GL_IMAGE_BINDING_LAYERED:
      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      v->value_int = ctx->ImageUnits[index].Layered;
      return TYPE_INT;

   case GL_IMAGE_BINDING_LAYER:
      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      v->value_int = ctx->ImageUnits[index].Layer;
      return TYPE_INT;

   case GL_IMAGE_BINDING_ACCESS:
      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      v->value_int = ctx->ImageUnits[index].Access;
      return TYPE_INT;

   case GL_IMAGE_BINDING_FORMAT:
      if (!ctx->Extensions.ARB_shader_image_load_store)
         goto invalid_enum;
      if (index >= ctx->Const.MaxImageUnits)
         goto invalid_value;

      v->value_int = ctx->ImageUnits[index].Format;
      return TYPE_INT;

   /* ARB_direct_state_access */
   case GL_TEXTURE_BINDING_1D:
   case GL_TEXTURE_BINDING_1D_ARRAY:
   case GL_TEXTURE_BINDING_2D:
   case GL_TEXTURE_BINDING_2D_ARRAY:
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE:
   case GL_TEXTURE_BINDING_2D_MULTISAMPLE_ARRAY:
   case GL_TEXTURE_BINDING_3D:
   case GL_TEXTURE_BINDING_BUFFER:
   case GL_TEXTURE_BINDING_CUBE_MAP:
   case GL_TEXTURE_BINDING_CUBE_MAP_ARRAY:
   case GL_TEXTURE_BINDING_RECTANGLE: {
      int target;

      target = tex_binding_to_index(ctx, pname);
      if (target < 0)
         goto invalid_enum;
      if (index >= _mesa_max_tex_unit(ctx))
         goto invalid_value;

      v->value_int = ctx->Texture.Unit[index].CurrentTex[target]->Name;
      return TYPE_INT;
   }

   case GL_SAMPLER_BINDING: {
      struct gl_sampler_object *samp;

      if (!_mesa_is_desktop_gl(ctx) || ctx->Version < 33)
         goto invalid_enum;
      if (index >= _mesa_max_tex_unit(ctx))
         goto invalid_value;

      samp = ctx->Texture.Unit[index].Sampler;
      v->value_int = samp ? samp->Name : 0;
      return TYPE_INT;
   }

   case GL_MAX_COMPUTE_WORK_GROUP_COUNT:
      if (!_mesa_has_compute_shaders(ctx))
         goto invalid_enum;
      if (index >= 3)
         goto invalid_value;
      v->value_int = ctx->Const.MaxComputeWorkGroupCount[index];
      return TYPE_INT;

   case GL_MAX_COMPUTE_WORK_GROUP_SIZE:
      if (!_mesa_has_compute_shaders(ctx))
         goto invalid_enum;
      if (index >= 3)
         goto invalid_value;
      v->value_int = ctx->Const.MaxComputeWorkGroupSize[index];
      return TYPE_INT;

   /* ARB_compute_variable_group_size */
   case GL_MAX_COMPUTE_VARIABLE_GROUP_SIZE_ARB:
      if (!ctx->Extensions.ARB_compute_variable_group_size)
         goto invalid_enum;
      if (index >= 3)
         goto invalid_value;
      v->value_int = ctx->Const.MaxComputeVariableGroupSize[index];
      return TYPE_INT;

   /* GL_EXT_external_objects */
   case GL_NUM_DEVICE_UUIDS_EXT:
      v->value_int = 1;
      return TYPE_INT;
   case GL_DRIVER_UUID_EXT:
      if (index >= 1)
         goto invalid_value;
      _mesa_get_driver_uuid(ctx, v->value_int_4);
      return TYPE_INT_4;
   case GL_DEVICE_UUID_EXT:
      if (index >= 1)
         goto invalid_value;
      _mesa_get_device_uuid(ctx, v->value_int_4);
      return TYPE_INT_4;
   /* GL_EXT_direct_state_access */
   case GL_TEXTURE_1D:
   case GL_TEXTURE_2D:
   case GL_TEXTURE_3D:
   case GL_TEXTURE_CUBE_MAP:
   case GL_TEXTURE_GEN_S:
   case GL_TEXTURE_GEN_T:
   case GL_TEXTURE_GEN_R:
   case GL_TEXTURE_GEN_Q:
   case GL_TEXTURE_RECTANGLE_ARB: {
      GLuint curTexUnitSave;
      if (index >= _mesa_max_tex_unit(ctx))
         goto invalid_enum;
      curTexUnitSave = ctx->Texture.CurrentUnit;
      _mesa_ActiveTexture_no_error(GL_TEXTURE0 + index);
      v->value_int = _mesa_IsEnabled(pname);
      _mesa_ActiveTexture_no_error(GL_TEXTURE0 + curTexUnitSave);
      return TYPE_INT;
   }
   case GL_TEXTURE_COORD_ARRAY: {
      GLuint curTexUnitSave;
      if (index >= ctx->Const.MaxTextureCoordUnits)
         goto invalid_enum;
      curTexUnitSave = ctx->Array.ActiveTexture;
      _mesa_ClientActiveTexture(GL_TEXTURE0 + index);
      v->value_int = _mesa_IsEnabled(pname);
      _mesa_ClientActiveTexture(GL_TEXTURE0 + curTexUnitSave);
      return TYPE_INT;
   }
   case GL_TEXTURE_MATRIX:
      if (index >= ARRAY_SIZE(ctx->TextureMatrixStack))
         goto invalid_enum;
      v->value_matrix = ctx->TextureMatrixStack[index].Top;
      return TYPE_MATRIX;
   case GL_TRANSPOSE_TEXTURE_MATRIX:
      if (index >= ARRAY_SIZE(ctx->TextureMatrixStack))
         goto invalid_enum;
      v->value_matrix = ctx->TextureMatrixStack[index].Top;
      return TYPE_MATRIX_T;
   /* GL_NV_viewport_swizzle */
   case GL_VIEWPORT_SWIZZLE_X_NV:
      if (!ctx->Extensions.NV_viewport_swizzle)
         goto invalid_enum;
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_int = ctx->ViewportArray[index].SwizzleX;
      return TYPE_INT;
   case GL_VIEWPORT_SWIZZLE_Y_NV:
      if (!ctx->Extensions.NV_viewport_swizzle)
         goto invalid_enum;
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_int = ctx->ViewportArray[index].SwizzleY;
      return TYPE_INT;
   case GL_VIEWPORT_SWIZZLE_Z_NV:
      if (!ctx->Extensions.NV_viewport_swizzle)
         goto invalid_enum;
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_int = ctx->ViewportArray[index].SwizzleZ;
      return TYPE_INT;
   case GL_VIEWPORT_SWIZZLE_W_NV:
      if (!ctx->Extensions.NV_viewport_swizzle)
         goto invalid_enum;
      if (index >= ctx->Const.MaxViewports)
         goto invalid_value;
      v->value_int = ctx->ViewportArray[index].SwizzleW;
      return TYPE_INT;
   }

 invalid_enum:
   _mesa_error(ctx, GL_INVALID_ENUM, "%s(pname=%s)", func,
               _mesa_enum_to_string(pname));
   return TYPE_INVALID;
 invalid_value:
   _mesa_error(ctx, GL_INVALID_VALUE, "%s(pname=%s)", func,
               _mesa_enum_to_string(pname));
   return TYPE_INVALID;
}

void GLAPIENTRY
_mesa_GetBooleani_v( GLenum pname, GLuint index, GLboolean *params )
{
   union value v;
   enum value_type type =
      find_value_indexed("glGetBooleani_v", pname, index, &v);

   switch (type) {
   case TYPE_INT:
   case TYPE_UINT:
      params[0] = INT_TO_BOOLEAN(v.value_int);
      break;
   case TYPE_INT_4:
   case TYPE_UINT_4:
      params[0] = INT_TO_BOOLEAN(v.value_int_4[0]);
      params[1] = INT_TO_BOOLEAN(v.value_int_4[1]);
      params[2] = INT_TO_BOOLEAN(v.value_int_4[2]);
      params[3] = INT_TO_BOOLEAN(v.value_int_4[3]);
      break;
   case TYPE_INT64:
      params[0] = INT64_TO_BOOLEAN(v.value_int64);
      break;
   default:
      ; /* nothing - GL error was recorded */
   }
}

void GLAPIENTRY
_mesa_GetIntegeri_v( GLenum pname, GLuint index, GLint *params )
{
   union value v;
   enum value_type type =
      find_value_indexed("glGetIntegeri_v", pname, index, &v);

   switch (type) {
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = IROUND(v.value_float_4[3]);
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = IROUND(v.value_float_4[2]);
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = IROUND(v.value_float_4[1]);
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = IROUND(v.value_float_4[0]);
      break;

   case TYPE_DOUBLEN_2:
      params[1] = IROUND(v.value_double_2[1]);
   case TYPE_DOUBLEN:
      params[0] = IROUND(v.value_double_2[0]);
      break;

   case TYPE_INT:
   case TYPE_UINT:
      params[0] = v.value_int;
      break;
   case TYPE_INT_4:
   case TYPE_UINT_4:
      params[0] = v.value_int_4[0];
      params[1] = v.value_int_4[1];
      params[2] = v.value_int_4[2];
      params[3] = v.value_int_4[3];
      break;
   case TYPE_INT64:
      params[0] = INT64_TO_INT(v.value_int64);
      break;
   default:
      ; /* nothing - GL error was recorded */
   }
}

void GLAPIENTRY
_mesa_GetInteger64i_v( GLenum pname, GLuint index, GLint64 *params )
{
   union value v;
   enum value_type type =
      find_value_indexed("glGetInteger64i_v", pname, index, &v);

   switch (type) {
   case TYPE_INT:
      params[0] = v.value_int;
      break;
   case TYPE_INT_4:
      params[0] = v.value_int_4[0];
      params[1] = v.value_int_4[1];
      params[2] = v.value_int_4[2];
      params[3] = v.value_int_4[3];
      break;
   case TYPE_UINT:
      params[0] = (GLuint) v.value_int;
      break;
   case TYPE_UINT_4:
      params[0] = (GLuint) v.value_int_4[0];
      params[1] = (GLuint) v.value_int_4[1];
      params[2] = (GLuint) v.value_int_4[2];
      params[3] = (GLuint) v.value_int_4[3];
      break;
   case TYPE_INT64:
      params[0] = v.value_int64;
      break;
   default:
      ; /* nothing - GL error was recorded */
   }
}

void GLAPIENTRY
_mesa_GetFloati_v(GLenum pname, GLuint index, GLfloat *params)
{
   int i;
   GLmatrix *m;
   union value v;
   enum value_type type =
      find_value_indexed("glGetFloati_v", pname, index, &v);

   switch (type) {
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = v.value_float_4[3];
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = v.value_float_4[2];
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = v.value_float_4[1];
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = v.value_float_4[0];
      break;

   case TYPE_DOUBLEN_2:
      params[1] = (GLfloat) v.value_double_2[1];
   case TYPE_DOUBLEN:
      params[0] = (GLfloat) v.value_double_2[0];
      break;

   case TYPE_INT_4:
      params[3] = (GLfloat) v.value_int_4[3];
   case TYPE_INT_3:
      params[2] = (GLfloat) v.value_int_4[2];
   case TYPE_INT_2:
   case TYPE_ENUM_2:
      params[1] = (GLfloat) v.value_int_4[1];
   case TYPE_INT:
   case TYPE_ENUM:
   case TYPE_ENUM16:
      params[0] = (GLfloat) v.value_int_4[0];
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = (GLfloat) v.value_int_n.ints[i];
      break;

   case TYPE_UINT_4:
      params[3] = (GLfloat) ((GLuint) v.value_int_4[3]);
   case TYPE_UINT_3:
      params[2] = (GLfloat) ((GLuint) v.value_int_4[2]);
   case TYPE_UINT_2:
      params[1] = (GLfloat) ((GLuint) v.value_int_4[1]);
   case TYPE_UINT:
      params[0] = (GLfloat) ((GLuint) v.value_int_4[0]);
      break;

   case TYPE_INT64:
      params[0] = (GLfloat) v.value_int64;
      break;

   case TYPE_BOOLEAN:
      params[0] = BOOLEAN_TO_FLOAT(v.value_bool);
      break;

   case TYPE_UBYTE:
      params[0] = (GLfloat) v.value_ubyte;
      break;

   case TYPE_SHORT:
      params[0] = (GLfloat) v.value_short;
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) &v;
      for (i = 0; i < 16; i++)
         params[i] = m->m[i];
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) &v;
      for (i = 0; i < 16; i++)
         params[i] = m->m[transpose[i]];
      break;

   default:
      ;
   }
}

void GLAPIENTRY
_mesa_GetDoublei_v(GLenum pname, GLuint index, GLdouble *params)
{
   int i;
   GLmatrix *m;
   union value v;
   enum value_type type =
      find_value_indexed("glGetDoublei_v", pname, index, &v);

   switch (type) {
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = (GLdouble) v.value_float_4[3];
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = (GLdouble) v.value_float_4[2];
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = (GLdouble) v.value_float_4[1];
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = (GLdouble) v.value_float_4[0];
      break;

   case TYPE_DOUBLEN_2:
      params[1] = v.value_double_2[1];
   case TYPE_DOUBLEN:
      params[0] = v.value_double_2[0];
      break;

   case TYPE_INT_4:
      params[3] = (GLdouble) v.value_int_4[3];
   case TYPE_INT_3:
      params[2] = (GLdouble) v.value_int_4[2];
   case TYPE_INT_2:
   case TYPE_ENUM_2:
      params[1] = (GLdouble) v.value_int_4[1];
   case TYPE_INT:
   case TYPE_ENUM:
   case TYPE_ENUM16:
      params[0] = (GLdouble) v.value_int_4[0];
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = (GLdouble) v.value_int_n.ints[i];
      break;

   case TYPE_UINT_4:
      params[3] = (GLdouble) ((GLuint) v.value_int_4[3]);
   case TYPE_UINT_3:
      params[2] = (GLdouble) ((GLuint) v.value_int_4[2]);
   case TYPE_UINT_2:
      params[1] = (GLdouble) ((GLuint) v.value_int_4[1]);
   case TYPE_UINT:
      params[0] = (GLdouble) ((GLuint) v.value_int_4[0]);
      break;

   case TYPE_INT64:
      params[0] = (GLdouble) v.value_int64;
      break;

   case TYPE_BOOLEAN:
      params[0] = (GLdouble) BOOLEAN_TO_FLOAT(v.value_bool);
      break;

   case TYPE_UBYTE:
      params[0] = (GLdouble) v.value_ubyte;
      break;

   case TYPE_SHORT:
      params[0] = (GLdouble) v.value_short;
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) &v;
      for (i = 0; i < 16; i++)
         params[i] = (GLdouble) m->m[i];
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) &v;
      for (i = 0; i < 16; i++)
         params[i] = (GLdouble) m->m[transpose[i]];
      break;

   default:
      ;
   }
}

void GLAPIENTRY
_mesa_GetUnsignedBytei_vEXT(GLenum target, GLuint index, GLubyte *data)
{
   GLsizei size;
   union value v;
   enum value_type type;
   const char *func = "glGetUnsignedBytei_vEXT";

   GET_CURRENT_CONTEXT(ctx);

   if (!ctx->Extensions.EXT_memory_object) {
      _mesa_error(ctx, GL_INVALID_OPERATION, "%s(unsupported)", func);
      return;
   }

   type = find_value_indexed(func, target, index, &v);
   size = get_value_size(type, &v);
   if (size <= 0) {
      _mesa_problem(ctx, "invalid value type in GetUnsignedBytei_vEXT()");
   }

   switch (type) {
   case TYPE_UINT:
   case TYPE_INT:
   case TYPE_INT_2:
   case TYPE_UINT_2:
   case TYPE_INT_3:
   case TYPE_UINT_3:
   case TYPE_INT_4:
   case TYPE_UINT_4:
   case TYPE_INT64:
   case TYPE_ENUM16:
   case TYPE_ENUM:
   case TYPE_ENUM_2:
   case TYPE_BOOLEAN:
   case TYPE_UBYTE:
   case TYPE_SHORT:
   case TYPE_FLOAT:
   case TYPE_FLOATN:
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
   case TYPE_FLOAT_8:
   case TYPE_DOUBLEN:
   case TYPE_DOUBLEN_2:
   case TYPE_MATRIX:
   case TYPE_MATRIX_T:
      memcpy(data, &v.value_int, size);
      break;
   case TYPE_INT_N:
      memcpy(data, &v.value_int_n.ints, size);
      break;
   default:
      break; /* nothing - GL error was recorded */
   }
}

void GLAPIENTRY
_mesa_GetFixedv(GLenum pname, GLfixed *params)
{
   const struct value_desc *d;
   union value v;
   GLmatrix *m;
   int shift, i;
   void *p;

   d = find_value("glGetDoublev", pname, &p, &v);
   switch (d->type) {
   case TYPE_INVALID:
      break;
   case TYPE_CONST:
      params[0] = INT_TO_FIXED(d->offset);
      break;

   case TYPE_FLOAT_4:
   case TYPE_FLOATN_4:
      params[3] = FLOAT_TO_FIXED(((GLfloat *) p)[3]);
   case TYPE_FLOAT_3:
   case TYPE_FLOATN_3:
      params[2] = FLOAT_TO_FIXED(((GLfloat *) p)[2]);
   case TYPE_FLOAT_2:
   case TYPE_FLOATN_2:
      params[1] = FLOAT_TO_FIXED(((GLfloat *) p)[1]);
   case TYPE_FLOAT:
   case TYPE_FLOATN:
      params[0] = FLOAT_TO_FIXED(((GLfloat *) p)[0]);
      break;

   case TYPE_DOUBLEN_2:
      params[1] = FLOAT_TO_FIXED(((GLdouble *) p)[1]);
   case TYPE_DOUBLEN:
      params[0] = FLOAT_TO_FIXED(((GLdouble *) p)[0]);
      break;

   case TYPE_INT_4:
   case TYPE_UINT_4:
      params[3] = INT_TO_FIXED(((GLint *) p)[3]);
   case TYPE_INT_3:
   case TYPE_UINT_3:
      params[2] = INT_TO_FIXED(((GLint *) p)[2]);
   case TYPE_INT_2:
   case TYPE_UINT_2:
   case TYPE_ENUM_2:
      params[1] = INT_TO_FIXED(((GLint *) p)[1]);
   case TYPE_INT:
   case TYPE_UINT:
   case TYPE_ENUM:
      params[0] = INT_TO_FIXED(((GLint *) p)[0]);
      break;

   case TYPE_ENUM16:
      params[0] = INT_TO_FIXED((GLint)(((GLenum16 *) p)[0]));
      break;

   case TYPE_INT_N:
      for (i = 0; i < v.value_int_n.n; i++)
         params[i] = INT_TO_FIXED(v.value_int_n.ints[i]);
      break;

   case TYPE_INT64:
      params[0] = ((GLint64 *) p)[0];
      break;

   case TYPE_BOOLEAN:
      params[0] = BOOLEAN_TO_FIXED(((GLboolean*) p)[0]);
      break;

   case TYPE_UBYTE:
      params[0] = INT_TO_FIXED(((GLubyte *) p)[0]);
      break;

   case TYPE_SHORT:
      params[0] = INT_TO_FIXED(((GLshort *) p)[0]);
      break;

   case TYPE_MATRIX:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_FIXED(m->m[i]);
      break;

   case TYPE_MATRIX_T:
      m = *(GLmatrix **) p;
      for (i = 0; i < 16; i++)
         params[i] = FLOAT_TO_FIXED(m->m[transpose[i]]);
      break;

   case TYPE_BIT_0:
   case TYPE_BIT_1:
   case TYPE_BIT_2:
   case TYPE_BIT_3:
   case TYPE_BIT_4:
   case TYPE_BIT_5:
   case TYPE_BIT_6:
   case TYPE_BIT_7:
      shift = d->type - TYPE_BIT_0;
      params[0] = BOOLEAN_TO_FIXED((*(GLbitfield *) p >> shift) & 1);
      break;
   }
}