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-rw-r--r--src/mesa/main/arbvertparse.c6657
1 files changed, 118 insertions, 6539 deletions
diff --git a/src/mesa/main/arbvertparse.c b/src/mesa/main/arbvertparse.c
index 3d1153b76ba..0df17f370af 100644
--- a/src/mesa/main/arbvertparse.c
+++ b/src/mesa/main/arbvertparse.c
@@ -22,6 +22,8 @@
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
+#define DEBUG_VP 0
+
/**
* \file arbvertparse.c
* ARB_vertex_program parser.
@@ -38,6594 +40,171 @@
#include "nvvertparse.h"
#include "nvvertprog.h"
-#include "arbvertparse.h"
-
-/**
- * Overview:
- *
- * This is a simple top-down predictive parser. In a nutshell, there are two key
- * elements to a predictive parser. First, is the 'look ahead' symbol. This is simply
- * the next token in the input stream. The other component is a stack of symbols.
- *
- * Given the grammar, we can derive a look ahead table. This is just a 2D array,
- * where one axis is the non-terminal on top of the stack and the other axis is
- * the look ahead. Each entry in the array is the production to apply when the pair
- * of stack symbol & look ahead is encountered. If no production is listed at
- * a given entry in the table, a parse error occurs if this combination
- * is seen.
- *
- * Since we want to drive the parsing from a couple of huge tables, we have to
- * save some information later on for processing (e.g. for code generation).
- * For this, we explicitly recreate the parse tree representing the derivation.
- * We can then make several passes over the parse tree to perform all additional
- * processing, and we can be sure the the parse is valid.
- *
- * The stack is initialized by pushing the start symbol onto it. The look ahead
- * symbol is initially the first token in the program string.
- *
- * If there is a non-terminal symbol on top of the stack, the look ahead table
- * is consulted to find if a production exists for the top of the stack
- * and the look ahead.
- *
- * When we find a matching production, we pop the non-terminal off the top of
- * the stack (the LHS of the production), and push the tokens on the RHS of
- * the production onto the stack. Note that we store a pointer to the parse_tree_node
- * containing the LHS token on the stack. This way, we can setup the children in
- * the parse tree as we apply the production.
- *
- * If there is a terminal symbol on top of the stack, we compare it with the
- * look ahead symbol. If they match, or we don't care about the value of the
- * terminal (e.g. we know its an integer, but don't necessairly care what
- * integer), the terminal symbol is popped off the stack and the look ahead
- * is advanced.
- *
- * There are a few special nasty cases of productions for which we make special
- * cases. These aren't found in the production/look-ahead tables, but listed
- * out explicitly.
- *
- * After the parse tree has been constructed, we make several recusive passes
- * over it to perform various tasks.
- *
- * The first pass is made to clean up the state bindings. This is done in
- * parse_tree_fold_bindings(). The goal is to reduce the big mess of a parse tree
- * created by strings such as:
- *
- * result.color.secondary
- *
- * and roll them up into one token and fill out some information in a symbol table.
- * In this case, the token at the root of the derivation becomes BINDING_TOKEN,
- * and the token attribute is an index into the binding table where this state
- * is held.
- *
- * The next two passes go about associating variables with BINDING_TOKENs. This
- * takes care of the cases like:
- *
- * OUTPUT foo = result.color.secondary;
- *
- * by inserting the index in the binding table for result.color.secondary into
- * the attr field in the identifier table where the 'foo' variable sits.
- * The second such pass deals with setting up arrays of program parameters,
- * while the first only deals with scalars.
- *
- * We then examine all the information on variables and state that we have
- * gathered, and layout which 'register' each variable or bit-of-state should use.
- *
- *
- * Finally, we make a recursive pass of the parse tree and generate opcodes
- * for Mesa to interpret while executing the program.
- *
- * It should be noted that each input/stack token has two parts, an 'identifier'
- * and an 'attribute'. The identifier tells what class the token is, e.g. INTEGER_TOKEN,
- * or NT_PROGRAM_SINGLE_ITEM_TOKEN. For some tokens, e.g. INTEGER_TOKEN, ID_TOKEN,
- * FLOAT_TOKEN, or BINDING_TOKEN, the attribute for the token is an index into a table
- * giving various properties about the token.
- *
- */
-
-/**
- * Here are all of the structs used to hold parse state and symbol
- * tables used.
- *
- * All strings which are not reserved words, floats, ints, or misc
- * puncuation (ie .) are considered to be [potential] identifiers.
- * When we encounter such a string while lex'ing, insert it into
- * the id symbol table, shown below.
- *
- * Sometime later, we'll initialize the variable types for identifiers
- * which really are variables. This gets shoved into the 'type' field.
- *
- * For variables, we'll need additional info (e.g. state it is bound to,
- * variable we're aliased to, etc). This is stored in the 'attr' field.
- * - For alias variables, the attr is the idx in the id table of
- * the variable we are bound to.
- * - For other variables, we need a whole mess of info. This can be
- * found in the binding symbol table, below. In this case, the
- * attr field is the idx into the binding table that describes us.
- * - For uninitialized ids, attr is -1.
- *
- * The data field holds the string of the id.
- *
- * len is the number of identifiers in the table.
- */
-typedef struct st_id_table
-{
- GLint len;
- GLint *type;
- GLint *attr;
- GLubyte **data;
-}
-id_table;
-
-/**
- * For PARAM arrays, we need to record the contents for use when
- * laying out registers and loading state.
- *
- * len is the number of arrays in the table.
- *
- * num_elements[i] is the number of items in array i. In other words, this
- * is the number of registers it would require when allocating.
- *
- * data[i][n] is the state bound to element n in array i. It is an idx into
- * the binding table
- */
-typedef struct st_array_table
-{
- GLint len;
- GLint *num_elements;
- GLint **data;
-}
-array_table;
-
-/**
- * For holding all of the data used to describe an identifier, we have the catch
- * all binding symbol table.
- *
- * len is the number of bound items;
- *
- * type[i] tells what we are binding too, e.g. ATTRIB_POSITION, FOG_COLOR, or CONSTANT
- *
- * offset[i] gives the matrix number for matrix bindings, e.g. MATRIXROWS_MODELVIEW.
- * Alternativly, it gives the number of the first parameter for PROGRAM_ENV_* and
- * PROGRAM_LOCAL_*.
- *
- * num_rows[i] gives the number of rows for multiple matrix rows, or the number
- * of parameters in a env/local array.
- *
- * consts gives the 4-GLfloat constant value for bindings of type CONSTANT
- *
- * reg_num gives the register number which this binding is held in.
- */
-typedef struct st_binding_table
-{
- GLint len;
- GLint *type;
- GLint *offset;
- GLint *row;
- GLint *num_rows;
- GLfloat **consts;
- GLint *reg_num;
-}
-binding_table;
-
-/**
- * Integers and floats are stored here.
- */
-typedef struct st_int_table
-{
- GLint len;
- GLint *data;
-}
-int_table;
-
-typedef struct st_float_table
-{
- GLint len;
- GLdouble *data;
-}
-float_table;
-
-/**
- * To avoid writing tons of mindless parser code, the parsing is driven by
- * a few big tables of rules, plus a few special cases. However, this means
- * that we have to do all of our analysis outside of the parsing step.
- *
- * So, the parser will contruct a parse tree describing the program string
- * which we can then operate on to do things like code generation.
- *
- * This struct represents a node in the parse tree.
- *
- * If tok is a non-terminal token, tok_attr is not relevant.
- * If tok is BINDING_TOKEN, tok_attr is the index into the binding table.
- * if tok is INTEGER_TOKEN or FLOAT_TOKEN, tok_attr is the index in the integer/GLfloat table
- *
- * prod_applied is the production number applied to this token in the derivation of
- * the program string. See arbvp_grammar.txt for a listing of the productions, and
- * their numbers.
- */
-typedef struct st_parse_tree_node
-{
- GLint tok, tok_attr, is_terminal;
- GLint prod_applied;
- struct st_parse_tree_node *children[4];
-}
-parse_tree_node;
-
-/** This stores tokens that we lex out
- */
-typedef struct st_token_list
-{
- GLint tok, tok_attr;
- parse_tree_node *pt;
-
- struct st_token_list *next;
-}
-token_list;
-
-/**
- * This holds all of the productions in the grammar.
- *
- * lhs is a non-terminal token, e.g. NT_PROGRAM_TOKEN.
- * rhs is either NULL_TOKEN, another non-terminal token, or a terminal token.
- * In some cases, we need the RHS to be a certain value, e.g. for the dst reg write masks.
- * For this, key is used to specify the string. If we don't care about the key, just
- * specify "".
- * Int/floats are slightly different, "-1" specifies 'we don't care'.
- *
- * lhs is not very useful here, but is is convient for sanity sake when specifing productions.
- */
-typedef struct st_prod_table
-{
- GLint lhs;
- GLint rhs[4];
- char *key[4];
-}
-prod_table;
-
-/**
- * This holds the look ahead table to drive the parser. We examine the token on
- * the top of the stack, as well as the next token in the input stream (the look ahead).
- * We then match this against the table, and apply the approprate production. If nothing
- * matches, we have a parse error.
- *
- * Here, LHS is the (non-terminal) token to match against the top of the stack.
- *
- * la is the token to match against the look ahead.
- *
- * If la is ID_TOKEN, we have to match a given keyword (e.g. 'ambient'). This is specified in
- * la_kw.
- *
- * prod_idx is the idx into the prod_table of the production that we are to apply if this
- * rule matches.
- */
-typedef struct st_look_ahead_table
-{
- GLint lhs;
- GLint la;
- char *la_kw;
- GLint prod_idx;
-}
-look_ahead_table;
-
-/**
- * This is the general catch-all for the parse state
- */
-typedef struct st_parse_state
-{
- char *str;
- GLint len;
-
- /* lex stuff ------ */
- GLint start_pos, curr_pos;
- GLint curr_state;
- /* ---------------- */
-
- id_table idents;
- int_table ints;
- float_table floats;
- binding_table binds;
- array_table arrays;
-
- token_list *stack_head, *stack_free_list;
-
- parse_tree_node *pt_head;
-}
-parse_state;
-
-/* local prototypes */
-static GLint float_table_add(float_table * tab, const char *str, GLint start,
- GLint end);
-static GLint int_table_add(int_table * tab, const char *str, GLint start,
- GLint end);
-static GLint id_table_add(id_table * tab, const char *str, GLint start,
- GLint end);
-static void parse_tree_free_children(parse_tree_node * ptn);
-
-/**
- * Here we have a ton of defined terms that we use to identify productions,
- * terminals, and nonterminals.
- */
-
-/**
- * Terminal tokens
- */
-#define EOF_TOKEN 0
-#define ID_TOKEN 1
-#define ABS_TOKEN 2
-#define ADD_TOKEN 3
-#define ADDRESS_TOKEN 4
-#define ALIAS_TOKEN 5
-#define ARL_TOKEN 6
-#define ATTRIB_TOKEN 7
-
-#define DP3_TOKEN 8
-#define DP4_TOKEN 9
-#define DPH_TOKEN 10
-#define DST_TOKEN 11
-
-#define END_TOKEN 12
-#define EX2_TOKEN 13
-#define EXP_TOKEN 14
-
-#define FLR_TOKEN 15
-#define FRC_TOKEN 16
-
-#define LG2_TOKEN 17
-#define LIT_TOKEN 18
-#define LOG_TOKEN 19
-
-#define MAD_TOKEN 20
-#define MAX_TOKEN 21
-#define MIN_TOKEN 22
-#define MOV_TOKEN 23
-#define MUL_TOKEN 24
-
-#define OPTION_TOKEN 25
-#define OUTPUT_TOKEN 26
-
-#define PARAM_TOKEN 27
-#define POW_TOKEN 28
-
-#define RCP_TOKEN 29
-#define RSQ_TOKEN 30
-
-#define SGE_TOKEN 31
-#define SLT_TOKEN 32
-#define SUB_TOKEN 33
-#define SWZ_TOKEN 34
-
-#define TEMP_TOKEN 35
-
-#define XPD_TOKEN 36
-
-#define SEMICOLON_TOKEN 37
-#define COMMA_TOKEN 38
-#define PLUS_TOKEN 39
-#define MINUS_TOKEN 40
-#define PERIOD_TOKEN 41
-#define DOTDOT_TOKEN 42
-#define LBRACKET_TOKEN 43
-#define RBRACKET_TOKEN 44
-#define LBRACE_TOKEN 45
-#define RBRACE_TOKEN 46
-#define EQUAL_TOKEN 47
-
-#define INTEGER_TOKEN 48
-#define FLOAT_TOKEN 49
-
-#define PROGRAM_TOKEN 50
-#define RESULT_TOKEN 51
-#define STATE_TOKEN 52
-#define VERTEX_TOKEN 53
-
-#define NULL_TOKEN 54
-
-#define BINDING_TOKEN 55
-
-/**
- * Non-terminal tokens
- */
-#define NT_PROGRAM_TOKEN 100
-#define NT_OPTION_SEQUENCE_TOKEN 101
-#define NT_OPTION_SEQUENCE2_TOKEN 102
-#define NT_OPTION_TOKEN 103
-#define NT_STATEMENT_SEQUENCE_TOKEN 104
-#define NT_STATEMENT_SEQUENCE2_TOKEN 105
-#define NT_STATEMENT_TOKEN 106
-
-#define NT_INSTRUCTION_TOKEN 107
-#define NT_ARL_INSTRUCTION_TOKEN 108
-#define NT_VECTOROP_INSTRUCTION_TOKEN 109
-#define NT_VECTOROP_TOKEN 110
-#define NT_SCALAROP_INSTRUCTION_TOKEN 111
-#define NT_SCALAROP_TOKEN 112
-#define NT_BINSCOP_INSTRUCTION_TOKEN 113
-#define NT_BINSCOP_INSTRUCTION2_TOKEN 114
-#define NT_BINSCOP_TOKEN 115
-#define NT_BINOP_INSTRUCTION_TOKEN 116
-#define NT_BINOP_INSTRUCTION2_TOKEN 117
-#define NT_BINOP_TOKEN 118
-#define NT_TRIOP_INSTRUCTION_TOKEN 119
-#define NT_TRIOP_INSTRUCTION2_TOKEN 120
-#define NT_TRIOP_INSTRUCTION3_TOKEN 121
-#define NT_TRIOP_TOKEN 122
-#define NT_SWZ_INSTRUCTION_TOKEN 123
-#define NT_SWZ_INSTRUCTION2_TOKEN 124
-
-#define NT_SCALAR_SRC_REG_TOKEN 130
-#define NT_SWIZZLE_SRC_REG_TOKEN 131
-#define NT_MASKED_DST_REG_TOKEN 132
-#define NT_MASKED_ADDR_REG_TOKEN 133
-#define NT_EXTENDED_SWIZZLE_TOKEN 134
-#define NT_EXTENDED_SWIZZLE2_TOKEN 135
-#define NT_EXT_SWIZ_COMP_TOKEN 136
-#define NT_EXT_SWIZ_SEL_TOKEN 137
-#define NT_SRC_REG_TOKEN 138
-#define NT_DST_REG_TOKEN 139
-#define NT_VERTEX_ATTRIB_REG_TOKEN 140
-
-#define NT_TEMPORARY_REG_TOKEN 150
-#define NT_PROG_PARAM_REG_TOKEN 151
-#define NT_PROG_PARAM_SINGLE_TOKEN 152
-#define NT_PROG_PARAM_ARRAY_TOKEN 153
-#define NT_PROG_PARAM_ARRAY_MEM_TOKEN 154
-#define NT_PROG_PARAM_ARRAY_ABS_TOKEN 155
-#define NT_PROG_PARAM_ARRAY_REL_TOKEN 156
-
-#define NT_ADDR_REG_REL_OFFSET_TOKEN 157
-#define NT_ADDR_REG_POS_OFFSET_TOKEN 158
-#define NT_ADDR_REG_NEG_OFFSET_TOKEN 159
-
-#define NT_VERTEX_RESULT_REG_TOKEN 160
-#define NT_ADDR_REG_TOKEN 161
-#define NT_ADDR_COMPONENT_TOKEN 162
-#define NT_ADDR_WRITE_MASK_TOKEN 163
-#define NT_SCALAR_SUFFIX_TOKEN 164
-#define NT_SWIZZLE_SUFFIX_TOKEN 165
-
-#define NT_COMPONENT_TOKEN 166
-#define NT_OPTIONAL_MASK_TOKEN 167
-#define NT_OPTIONAL_MASK2_TOKEN 168
-#define NT_NAMING_STATEMENT_TOKEN 169
-
-#define NT_ATTRIB_STATEMENT_TOKEN 170
-#define NT_VTX_ATTRIB_BINDING_TOKEN 171
-#define NT_VTX_ATTRIB_ITEM_TOKEN 172
-#define NT_VTX_ATTRIB_NUM_TOKEN 173
-#define NT_VTX_OPT_WEIGHT_NUM_TOKEN 174
-#define NT_VTX_WEIGHT_NUM_TOKEN 175
-#define NT_PARAM_STATEMENT_TOKEN 176
-#define NT_PARAM_STATEMENT2_TOKEN 177
-#define NT_OPT_ARRAY_SIZE_TOKEN 178
-#define NT_PARAM_SINGLE_INIT_TOKEN 179
-#define NT_PARAM_MULTIPLE_INIT_TOKEN 180
-#define NT_PARAM_MULT_INIT_LIST_TOKEN 181
-#define NT_PARAM_MULT_INIT_LIST2_TOKEN 182
-#define NT_PARAM_SINGLE_ITEM_DECL_TOKEN 183
-#define NT_PARAM_SINGLE_ITEM_USE_TOKEN 184
-#define NT_PARAM_MULTIPLE_ITEM_TOKEN 185
-#define NT_STATE_MULTIPLE_ITEM_TOKEN 186
-#define NT_STATE_MULTIPLE_ITEM2_TOKEN 187
-#define NT_FOO_TOKEN 188
-#define NT_FOO2_TOKEN 189
-#define NT_FOO3_TOKEN 190
-#define NT_FOO35_TOKEN 191
-#define NT_FOO4_TOKEN 192
-#define NT_STATE_SINGLE_ITEM_TOKEN 193
-#define NT_STATE_SINGLE_ITEM2_TOKEN 194
-#define NT_STATE_MATERIAL_ITEM_TOKEN 195
-#define NT_STATE_MATERIAL_ITEM2_TOKEN 196
-#define NT_STATE_MAT_PROPERTY_TOKEN 197
-#define NT_STATE_LIGHT_ITEM_TOKEN 198
-#define NT_STATE_LIGHT_ITEM2_TOKEN 199
-#define NT_STATE_LIGHT_PROPERTY_TOKEN 200
-#define NT_STATE_SPOT_PROPERTY_TOKEN 201
-#define NT_STATE_LIGHT_MODEL_ITEM_TOKEN 202
-#define NT_STATE_LMOD_PROPERTY_TOKEN 203
-#define NT_STATE_LMOD_PROPERTY2_TOKEN 204
-
-#define NT_STATE_LIGHT_PROD_ITEM_TOKEN 207
-#define NT_STATE_LIGHT_PROD_ITEM15_TOKEN 208
-#define NT_STATE_LIGHT_PROD_ITEM2_TOKEN 209
-#define NT_STATE_LPROD_PROPERTY_TOKEN 210
-#define NT_STATE_LIGHT_NUMBER_TOKEN 211
-#define NT_STATE_TEX_GEN_ITEM_TOKEN 212
-#define NT_STATE_TEX_GEN_ITEM2_TOKEN 213
-#define NT_STATE_TEX_GEN_TYPE_TOKEN 214
-#define NT_STATE_TEX_GEN_COORD_TOKEN 215
-#define NT_STATE_FOG_ITEM_TOKEN 216
-#define NT_STATE_FOG_PROPERTY_TOKEN 217
-
-#define NT_STATE_CLIP_PLANE_ITEM_TOKEN 218
-#define NT_STATE_CLIP_PLANE_ITEM2_TOKEN 219
-#define NT_STATE_CLIP_PLANE_NUM_TOKEN 220
-#define NT_STATE_POINT_ITEM_TOKEN 221
-#define NT_STATE_POINT_PROPERTY_TOKEN 222
-#define NT_STATE_MATRIX_ROW_TOKEN 223
-#define NT_STATE_MATRIX_ROW15_TOKEN 224
-#define NT_STATE_MATRIX_ROW2_TOKEN 225
-#define NT_STATE_MATRIX_ROW3_TOKEN 226
-#define NT_STATE_MAT_MODIFIER_TOKEN 227
-#define NT_STATE_MATRIX_ROW_NUM_TOKEN 228
-#define NT_STATE_MATRIX_NAME_TOKEN 229
-#define NT_STATE_OPT_MOD_MAT_NUM_TOKEN 230
-#define NT_STATE_MOD_MAT_NUM_TOKEN 231
-#define NT_STATE_PALETTE_MAT_NUM_TOKEN 232
-#define NT_STATE_PROGRAM_MAT_NUM_TOKEN 233
-
-#define NT_PROGRAM_SINGLE_ITEM_TOKEN 234
-#define NT_PROGRAM_SINGLE_ITEM2_TOKEN 235
-#define NT_PROGRAM_MULTIPLE_ITEM_TOKEN 236
-#define NT_PROGRAM_MULTIPLE_ITEM2_TOKEN 237
-#define NT_PROG_ENV_PARAMS_TOKEN 238
-#define NT_PROG_ENV_PARAM_NUMS_TOKEN 239
-#define NT_PROG_ENV_PARAM_NUMS2_TOKEN 240
-#define NT_PROG_ENV_PARAM_TOKEN 250
-#define NT_PROG_LOCAL_PARAMS_TOKEN 251
-#define NT_PROG_LOCAL_PARAM_NUMS_TOKEN 252
-#define NT_PROG_LOCAL_PARAM_NUMS2_TOKEN 253
-#define NT_PROG_LOCAL_PARAM_TOKEN 254
-#define NT_PROG_ENV_PARAM_NUM_TOKEN 255
-#define NT_PROG_LOCAL_PARAM_NUM_TOKEN 256
-
-#define NT_PARAM_CONST_DECL_TOKEN 257
-#define NT_PARAM_CONST_USE_TOKEN 258
-#define NT_PARAM_CONST_SCALAR_DECL_TOKEN 259
-#define NT_PARAM_CONST_SCALAR_USE_TOKEN 260
-#define NT_PARAM_CONST_VECTOR_TOKEN 261
-#define NT_PARAM_CONST_VECTOR2_TOKEN 262
-#define NT_PARAM_CONST_VECTOR3_TOKEN 263
-#define NT_PARAM_CONST_VECTOR4_TOKEN 264
-
-#define NT_SIGNED_FLOAT_CONSTANT_TOKEN 265
-#define NT_FLOAT_CONSTANT_TOKEN 266
-#define NT_OPTIONAL_SIGN_TOKEN 267
-
-#define NT_TEMP_STATEMENT_TOKEN 268
-#define NT_ADDRESS_STATEMENT_TOKEN 269
-#define NT_VAR_NAME_LIST_TOKEN 270
-#define NT_OUTPUT_STATEMENT_TOKEN 271
-#define NT_RESULT_BINDING_TOKEN 272
-#define NT_RESULT_BINDING2_TOKEN 273
-#define NT_RESULT_COL_BINDING_TOKEN 274
-#define NT_RESULT_COL_BINDING2_TOKEN 275
-#define NT_RESULT_COL_BINDING3_TOKEN 276
-#define NT_RESULT_COL_BINDING4_TOKEN 277
-#define NT_RESULT_COL_BINDING5_TOKEN 278
-
-#define NT_OPT_FACE_TYPE2_TOKEN 279
-#define NT_OPT_COLOR_TYPE_TOKEN 280
-#define NT_OPT_COLOR_TYPE2_TOKEN 281
-#define NT_OPT_TEX_COORD_NUM_TOKEN 282
-#define NT_TEX_COORD_NUM_TOKEN 283
-
-#define NT_ALIAS_STATEMENT_TOKEN 284
-#define NT_ESTABLISH_NAME_TOKEN 285
-#define NT_ESTABLISHED_NAME_TOKEN 286
-
-#define NT_SWIZZLE_SUFFIX2_TOKEN 287
-#define NT_COMPONENT4_TOKEN 288
-
-/**
- * FSA States for lex
- *
- * XXX: These can be turned into enums
- */
-#define STATE_BASE 0
-#define STATE_IDENT 1
-
-#define STATE_A 2
-#define STATE_AB 3
-#define STATE_ABS 4
-#define STATE_AD 5
-#define STATE_ADD 6
-#define STATE_ADDR 7
-#define STATE_ADDRE 8
-#define STATE_ADDRES 9
-#define STATE_ADDRESS 10
-#define STATE_AL 11
-#define STATE_ALI 12
-#define STATE_ALIA 13
-#define STATE_ALIAS 14
-#define STATE_AR 15
-#define STATE_ARL 16
-#define STATE_AT 17
-#define STATE_ATT 18
-#define STATE_ATTR 19
-#define STATE_ATTRI 20
-#define STATE_ATTRIB 21
-
-#define STATE_D 22
-#define STATE_DP 23
-#define STATE_DP3 24
-#define STATE_DP4 25
-#define STATE_DPH 26
-#define STATE_DS 27
-#define STATE_DST 28
-
-#define STATE_E 29
-#define STATE_EN 30
-#define STATE_END 31
-#define STATE_EX 32
-#define STATE_EX2 33
-#define STATE_EXP 34
-
-#define STATE_F 35
-#define STATE_FL 36
-#define STATE_FLR 37
-#define STATE_FR 38
-#define STATE_FRC 39
-
-#define STATE_L 40
-#define STATE_LG 41
-#define STATE_LG2 42
-#define STATE_LI 43
-#define STATE_LIT 44
-#define STATE_LO 45
-#define STATE_LOG 46
-
-#define STATE_M 47
-#define STATE_MA 48
-#define STATE_MAD 49
-#define STATE_MAX 50
-#define STATE_MI 51
-#define STATE_MIN 52
-#define STATE_MO 53
-#define STATE_MOV 54
-#define STATE_MU 55
-#define STATE_MUL 56
-
-#define STATE_O 57
-#define STATE_OP 58
-#define STATE_OPT 59
-#define STATE_OPTI 60
-#define STATE_OPTIO 61
-#define STATE_OPTION 62
-#define STATE_OU 63
-#define STATE_OUT 64
-#define STATE_OUTP 65
-#define STATE_OUTPU 66
-#define STATE_OUTPUT 67
-
-#define STATE_P 68
-#define STATE_PA 69
-#define STATE_PAR 70
-#define STATE_PARA 71
-#define STATE_PARAM 72
-#define STATE_PO 73
-#define STATE_POW 74
-
-#define STATE_R 75
-#define STATE_RC 76
-#define STATE_RCP 77
-#define STATE_RS 78
-#define STATE_RSQ 79
-
-#define STATE_S 80
-#define STATE_SG 81
-#define STATE_SGE 82
-#define STATE_SL 83
-#define STATE_SLT 84
-#define STATE_SU 85
-#define STATE_SUB 86
-#define STATE_SW 87
-#define STATE_SWZ 88
-
-#define STATE_T 89
-#define STATE_TE 90
-#define STATE_TEM 91
-#define STATE_TEMP 92
-
-#define STATE_X 93
-#define STATE_XP 94
-#define STATE_XPD 95
-
-#define STATE_N1 96
-#define STATE_N2 97
-#define STATE_N3 98
-#define STATE_N4 99
-#define STATE_N5 100
-#define STATE_N6 101
-#define STATE_N7 102
-
-#define STATE_COMMENT 103
-
-/* LC == lower case, as in 'program' */
-#define STATE_LC_P 104
-#define STATE_LC_PR 105
-#define STATE_LC_PRO 106
-#define STATE_LC_PROG 107
-#define STATE_LC_PROGR 108
-#define STATE_LC_PROGRA 109
-
-#define STATE_LC_R 110
-#define STATE_LC_RE 111
-#define STATE_LC_RES 112
-#define STATE_LC_RESU 113
-#define STATE_LC_RESUL 114
-#define STATE_LC_RESULT 115
-
-#define STATE_LC_S 116
-#define STATE_LC_ST 117
-#define STATE_LC_STA 118
-#define STATE_LC_STAT 119
-#define STATE_LC_STATE 120
-
-#define STATE_LC_V 121
-#define STATE_LC_VE 122
-#define STATE_LC_VER 123
-#define STATE_LC_VERT 124
-#define STATE_LC_VERTE 125
-#define STATE_LC_VERTEX 126
-#define STATE_LC_PROGRAM 127
-
-/**
- * Error codes
- */
-#define ARB_VP_ERROR -1
-#define ARB_VP_SUCESS 0
-
-/**
- * Variable types
- */
-#define TYPE_NONE 0
-#define TYPE_ATTRIB 1
-#define TYPE_PARAM 2
-#define TYPE_PARAM_SINGLE 3
-#define TYPE_PARAM_ARRAY 4
-#define TYPE_TEMP 5
-#define TYPE_ADDRESS 6
-#define TYPE_OUTPUT 7
-#define TYPE_ALIAS 8
-
-/**
- * Vertex Attrib Bindings
- */
-#define ATTRIB_POSITION 1
-#define ATTRIB_WEIGHT 2
-#define ATTRIB_NORMAL 3
-#define ATTRIB_COLOR_PRIMARY 4
-#define ATTRIB_COLOR_SECONDARY 5
-#define ATTRIB_FOGCOORD 6
-#define ATTRIB_TEXCOORD 7
-#define ATTRIB_MATRIXINDEX 8
-#define ATTRIB_ATTRIB 9
-
-/**
- * Result Bindings
- */
-#define RESULT_POSITION 10
-#define RESULT_FOGCOORD 11
-#define RESULT_POINTSIZE 12
-#define RESULT_COLOR_FRONT_PRIMARY 13
-#define RESULT_COLOR_FRONT_SECONDARY 14
-#define RESULT_COLOR_BACK_PRIMARY 15
-#define RESULT_COLOR_BACK_SECONDARY 16
-#define RESULT_TEXCOORD 17
-
-/**
- * Material Property Bindings
- */
-#define MATERIAL_FRONT_AMBIENT 18
-#define MATERIAL_FRONT_DIFFUSE 19
-#define MATERIAL_FRONT_SPECULAR 20
-#define MATERIAL_FRONT_EMISSION 21
-#define MATERIAL_FRONT_SHININESS 22
-#define MATERIAL_BACK_AMBIENT 23
-#define MATERIAL_BACK_DIFFUSE 24
-#define MATERIAL_BACK_SPECULAR 25
-#define MATERIAL_BACK_EMISSION 26
-#define MATERIAL_BACK_SHININESS 27
-
-/**
- * Light Property Bindings
- */
-#define LIGHT_AMBIENT 28
-#define LIGHT_DIFFUSE 29
-#define LIGHT_SPECULAR 30
-#define LIGHT_POSITION 31
-#define LIGHT_ATTENUATION 32
-#define LIGHT_SPOT_DIRECTION 33
-#define LIGHT_HALF 34
-#define LIGHTMODEL_AMBIENT 35
-#define LIGHTMODEL_FRONT_SCENECOLOR 36
-#define LIGHTMODEL_BACK_SCENECOLOR 37
-#define LIGHTPROD_FRONT_AMBIENT 38
-#define LIGHTPROD_FRONT_DIFFUSE 39
-#define LIGHTPROD_FRONT_SPECULAR 40
-#define LIGHTPROD_BACK_AMBIENT 41
-#define LIGHTPROD_BACK_DIFFUSE 42
-#define LIGHTPROD_BACK_SPECULAR 43
-
-/**
- * Texgen Property Bindings
- */
-#define TEXGEN_EYE_S 44
-#define TEXGEN_EYE_T 45
-#define TEXGEN_EYE_R 46
-#define TEXGEN_EYE_Q 47
-#define TEXGEN_OBJECT_S 48
-#define TEXGEN_OBJECT_T 49
-#define TEXGEN_OBJECT_R 50
-#define TEXGEN_OBJECT_Q 51
-
-/**
- * Fog Property Bindings
- */
-#define FOG_COLOR 52
-#define FOG_PARAMS 53
-
-/**
- * Clip Property Bindings
- */
-#define CLIP_PLANE 54
-
-/**
- * Point Property Bindings
- */
-#define POINT_SIZE 55
-#define POINT_ATTENUATION 56
-
-/**
- * Matrix Row Property Bindings
- */
-#define MATRIXROW_MODELVIEW 57
-#define MATRIXROW_MODELVIEW_INVERSE 58
-#define MATRIXROW_MODELVIEW_INVTRANS 59
-#define MATRIXROW_MODELVIEW_TRANSPOSE 60
-#define MATRIXROW_PROJECTION 61
-#define MATRIXROW_PROJECTION_INVERSE 62
-#define MATRIXROW_PROJECTION_INVTRANS 63
-#define MATRIXROW_PROJECTION_TRANSPOSE 64
-#define MATRIXROW_MVP 65
-#define MATRIXROW_MVP_INVERSE 66
-#define MATRIXROW_MVP_INVTRANS 67
-#define MATRIXROW_MVP_TRANSPOSE 68
-#define MATRIXROW_TEXTURE 69
-#define MATRIXROW_TEXTURE_INVERSE 70
-#define MATRIXROW_TEXTURE_INVTRANS 71
-#define MATRIXROW_TEXTURE_TRANSPOSE 72
-#define MATRIXROW_PALETTE 73
-#define MATRIXROW_PALETTE_INVERSE 74
-#define MATRIXROW_PALETTE_INVTRANS 75
-#define MATRIXROW_PALETTE_TRANSPOSE 76
-#define MATRIXROW_PROGRAM 77
-#define MATRIXROW_PROGRAM_INVERSE 78
-#define MATRIXROW_PROGRAM_INVTRANS 79
-#define MATRIXROW_PROGRAM_TRANSPOSE 80
-
-#define MATRIXROWS_MODELVIEW 81
-#define MATRIXROWS_MODELVIEW_INVERSE 82
-#define MATRIXROWS_MODELVIEW_INVTRANS 83
-#define MATRIXROWS_MODELVIEW_TRANSPOSE 84
-#define MATRIXROWS_PROJECTION 85
-#define MATRIXROWS_PROJECTION_INVERSE 86
-#define MATRIXROWS_PROJECTION_INVTRANS 87
-#define MATRIXROWS_PROJECTION_TRANSPOSE 88
-#define MATRIXROWS_MVP 89
-#define MATRIXROWS_MVP_INVERSE 90
-#define MATRIXROWS_MVP_INVTRANS 91
-#define MATRIXROWS_MVP_TRANSPOSE 92
-#define MATRIXROWS_TEXTURE 93
-#define MATRIXROWS_TEXTURE_INVERSE 94
-#define MATRIXROWS_TEXTURE_INVTRANS 95
-#define MATRIXROWS_TEXTURE_TRANSPOSE 96
-#define MATRIXROWS_PALETTE 97
-#define MATRIXROWS_PALETTE_INVERSE 98
-#define MATRIXROWS_PALETTE_INVTRANS 99
-#define MATRIXROWS_PALETTE_TRANSPOSE 100
-#define MATRIXROWS_PROGRAM 101
-#define MATRIXROWS_PROGRAM_INVERSE 102
-#define MATRIXROWS_PROGRAM_INVTRANS 103
-#define MATRIXROWS_PROGRAM_TRANSPOSE 104
-
-#define PROGRAM_ENV_SINGLE 105
-#define PROGRAM_LOCAL_SINGLE 106
-#define PROGRAM_ENV_MULTI 107
-#define PROGRAM_LOCAL_MULTI 108
-
-#define CONSTANT 109
-
-
-
-
-#define IS_WHITESPACE(c) (c == ' ') || (c == '\t') || (c == '\n')
-#define IS_IDCHAR(c) ((c >= 'A') && (c <= 'Z')) || \
- ((c >= 'a') && (c <= 'z')) || \
- (c == '_') || (c == '$')
-#define IS_DIGIT(c) (c >= '0') && (c <= '9')
-#define IS_CD(c) (IS_DIGIT(c)) || (IS_IDCHAR(c))
-
-#define ADV_TO_STATE(state) s->curr_state = state; s->curr_pos++;
-
-#define ADV_OR_FALLBACK(c, state) if (curr == c) { \
- ADV_TO_STATE(state); \
- } else {\
- if (IS_CD(curr)) { \
- ADV_TO_STATE(STATE_IDENT); \
- } else \
- s->curr_state = 1;\
- }
-
-#define FINISH(tok) *token = tok; s->start_pos = s->curr_pos; s->curr_state = STATE_BASE; return ARB_VP_SUCESS;
-#define ADV_AND_FINISH(tok) *token = tok; s->start_pos = s->curr_pos+1; s->curr_pos++; \
- s->curr_state = STATE_BASE; return ARB_VP_SUCESS;
-
-#define FINISH_OR_FALLBACK(tok) if (IS_CD(curr)) {\
- ADV_TO_STATE(STATE_IDENT); \
- } else { \
- FINISH(tok)\
- }
-
-#define NO_KW {"", "", "", ""}
-#define NULL2 NULL_TOKEN, NULL_TOKEN
-#define NULL3 NULL_TOKEN, NULL2
-#define NULL4 NULL2, NULL2
-
-/* This uglyness is the production table. See the prod_table struct definition for a description */
-prod_table ptab[] = {
- {NT_PROGRAM_TOKEN,
- {NT_OPTION_SEQUENCE_TOKEN, NT_STATEMENT_SEQUENCE_TOKEN, END_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_OPTION_SEQUENCE_TOKEN, {NT_OPTION_SEQUENCE2_TOKEN, NULL3}, NO_KW},
- {NT_OPTION_SEQUENCE2_TOKEN, {NT_OPTION_TOKEN, NT_OPTION_SEQUENCE2_TOKEN, NULL2}, NO_KW},
- {NT_OPTION_SEQUENCE2_TOKEN, {NULL4}, NO_KW},
- {NT_OPTION_TOKEN, {OPTION_TOKEN, ID_TOKEN, SEMICOLON_TOKEN, NULL_TOKEN}, NO_KW},
-
-
- /* 5: */
- {NT_STATEMENT_SEQUENCE_TOKEN, {NT_STATEMENT_SEQUENCE2_TOKEN, NULL3}, NO_KW},
- {NT_STATEMENT_SEQUENCE2_TOKEN, {NT_STATEMENT_TOKEN, NT_STATEMENT_SEQUENCE2_TOKEN, NULL2}, NO_KW},
- {NT_STATEMENT_SEQUENCE2_TOKEN, {NULL4}, NO_KW},
- {NT_STATEMENT_TOKEN, {NT_INSTRUCTION_TOKEN, SEMICOLON_TOKEN, NULL2}, NO_KW},
- {NT_STATEMENT_TOKEN, {NT_NAMING_STATEMENT_TOKEN, SEMICOLON_TOKEN, NULL2}, NO_KW},
-
- /* 10: */
- {NT_INSTRUCTION_TOKEN, {NT_ARL_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_INSTRUCTION_TOKEN, {NT_VECTOROP_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_INSTRUCTION_TOKEN, {NT_SCALAROP_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_INSTRUCTION_TOKEN, {NT_BINSCOP_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_INSTRUCTION_TOKEN, {NT_BINOP_INSTRUCTION_TOKEN, NULL3}, NO_KW},
-
- /* 15: */
- {NT_INSTRUCTION_TOKEN, {NT_TRIOP_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_INSTRUCTION_TOKEN, {NT_SWZ_INSTRUCTION_TOKEN, NULL3}, NO_KW},
- {NT_ARL_INSTRUCTION_TOKEN, {ARL_TOKEN, NT_MASKED_ADDR_REG_TOKEN,
- COMMA_TOKEN, NT_SCALAR_SRC_REG_TOKEN}, NO_KW},
- {NT_VECTOROP_INSTRUCTION_TOKEN, {NT_VECTOROP_TOKEN, NT_MASKED_DST_REG_TOKEN, COMMA_TOKEN,
- NT_SWIZZLE_SRC_REG_TOKEN}, NO_KW},
- {NT_VECTOROP_TOKEN, {ABS_TOKEN, NULL3}, NO_KW},
-
- /* 20: */
- {NT_VECTOROP_TOKEN, {FLR_TOKEN, NULL3}, NO_KW},
- {NT_VECTOROP_TOKEN, {FRC_TOKEN, NULL3}, NO_KW},
- {NT_VECTOROP_TOKEN, {LIT_TOKEN, NULL3}, NO_KW},
- {NT_VECTOROP_TOKEN, {MOV_TOKEN, NULL3}, NO_KW},
- {NT_SCALAROP_INSTRUCTION_TOKEN, {NT_SCALAROP_TOKEN, NT_MASKED_DST_REG_TOKEN, COMMA_TOKEN,
- NT_SCALAR_SRC_REG_TOKEN}, NO_KW},
-
- /* 25: */
- {NT_SCALAROP_TOKEN, {EX2_TOKEN, NULL3}, NO_KW},
- {NT_SCALAROP_TOKEN, {EXP_TOKEN, NULL3}, NO_KW},
- {NT_SCALAROP_TOKEN, {LG2_TOKEN, NULL3}, NO_KW},
- {NT_SCALAROP_TOKEN, {LOG_TOKEN, NULL3}, NO_KW},
- {NT_SCALAROP_TOKEN, {RCP_TOKEN, NULL3}, NO_KW},
-
- /* 30: */
- {NT_SCALAROP_TOKEN, {RSQ_TOKEN, NULL3}, NO_KW},
- {NT_BINSCOP_INSTRUCTION_TOKEN,
- {NT_BINSCOP_TOKEN, NT_MASKED_DST_REG_TOKEN, NT_BINSCOP_INSTRUCTION2_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_BINSCOP_INSTRUCTION2_TOKEN,
- {COMMA_TOKEN, NT_SCALAR_SRC_REG_TOKEN, COMMA_TOKEN,
- NT_SCALAR_SRC_REG_TOKEN}, NO_KW},
- {NT_BINSCOP_TOKEN, {POW_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_INSTRUCTION_TOKEN,
- {NT_BINOP_TOKEN, NT_MASKED_DST_REG_TOKEN, NT_BINOP_INSTRUCTION2_TOKEN,
- NULL_TOKEN}, NO_KW},
-
- /* 35: */
- {NT_BINOP_INSTRUCTION2_TOKEN,
- {COMMA_TOKEN, NT_SWIZZLE_SRC_REG_TOKEN, COMMA_TOKEN,
- NT_SWIZZLE_SRC_REG_TOKEN}, NO_KW},
- {NT_BINOP_TOKEN, {ADD_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {DP3_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {DP4_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {DPH_TOKEN, NULL3}, NO_KW},
-
- /* 40: */
- {NT_BINOP_TOKEN, {DST_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {MAX_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {MIN_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {MUL_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {SGE_TOKEN, NULL3}, NO_KW},
-
- /* 45: */
- {NT_BINOP_TOKEN, {SLT_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {SUB_TOKEN, NULL3}, NO_KW},
- {NT_BINOP_TOKEN, {XPD_TOKEN, NULL3}, NO_KW},
- {NT_TRIOP_INSTRUCTION_TOKEN,
- {NT_TRIOP_TOKEN, NT_MASKED_DST_REG_TOKEN, NT_TRIOP_INSTRUCTION2_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_TRIOP_INSTRUCTION2_TOKEN,
- {COMMA_TOKEN, NT_SWIZZLE_SRC_REG_TOKEN, NT_TRIOP_INSTRUCTION3_TOKEN,
- NULL_TOKEN}, NO_KW},
-
- /* 50: */
- {NT_TRIOP_INSTRUCTION3_TOKEN,
- {COMMA_TOKEN, NT_SWIZZLE_SRC_REG_TOKEN, COMMA_TOKEN,
- NT_SWIZZLE_SRC_REG_TOKEN}, NO_KW},
- {NT_TRIOP_TOKEN, {MAD_TOKEN, NULL3}, NO_KW},
- {NT_SWZ_INSTRUCTION_TOKEN,
- {SWZ_TOKEN, NT_MASKED_DST_REG_TOKEN, NT_SWZ_INSTRUCTION2_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_SWZ_INSTRUCTION2_TOKEN,
- {COMMA_TOKEN, NT_SRC_REG_TOKEN, COMMA_TOKEN, NT_EXTENDED_SWIZZLE_TOKEN},
- NO_KW},
- {NT_SCALAR_SRC_REG_TOKEN,
- {NT_OPTIONAL_SIGN_TOKEN, NT_SRC_REG_TOKEN, NT_SCALAR_SUFFIX_TOKEN,
- NULL_TOKEN}, NO_KW},
-
- /* 55 */
- {NT_SWIZZLE_SRC_REG_TOKEN,
- {NT_OPTIONAL_SIGN_TOKEN, NT_SRC_REG_TOKEN, NT_SWIZZLE_SUFFIX_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_MASKED_DST_REG_TOKEN,
- {NT_DST_REG_TOKEN, NT_OPTIONAL_MASK_TOKEN, NULL2}, NO_KW},
- {NT_MASKED_ADDR_REG_TOKEN,
- {NT_ADDR_REG_TOKEN, NT_ADDR_WRITE_MASK_TOKEN, NULL2}, NO_KW},
- {NT_EXTENDED_SWIZZLE_TOKEN,
- {NT_EXT_SWIZ_COMP_TOKEN, COMMA_TOKEN, NT_EXT_SWIZ_COMP_TOKEN,
- NT_EXTENDED_SWIZZLE2_TOKEN}, NO_KW},
- {NT_EXTENDED_SWIZZLE2_TOKEN,
- {COMMA_TOKEN, NT_EXT_SWIZ_COMP_TOKEN, COMMA_TOKEN,
- NT_EXT_SWIZ_COMP_TOKEN}, NO_KW},
-
- /* 60 */
- {NT_EXT_SWIZ_COMP_TOKEN,{NT_OPTIONAL_SIGN_TOKEN, NT_EXT_SWIZ_SEL_TOKEN, NULL2},
- NO_KW},
- {NT_EXT_SWIZ_SEL_TOKEN, {INTEGER_TOKEN, NULL3}, {"0", "", "", ""}},
- {NT_EXT_SWIZ_SEL_TOKEN, {INTEGER_TOKEN, NULL3}, {"1", "", "", ""}},
- {NT_EXT_SWIZ_SEL_TOKEN, {NT_COMPONENT_TOKEN, NULL3}, NO_KW},
- {NT_SRC_REG_TOKEN, {NT_VERTEX_ATTRIB_REG_TOKEN, NULL3}, NO_KW},
-
- /* 65: */
- {NT_SRC_REG_TOKEN, {NT_TEMPORARY_REG_TOKEN, NULL3}, NO_KW},
- {NT_SRC_REG_TOKEN, {NT_PROG_PARAM_REG_TOKEN, NULL3}, NO_KW},
- {NT_DST_REG_TOKEN, {NT_TEMPORARY_REG_TOKEN, NULL3}, NO_KW},
- {NT_DST_REG_TOKEN, {NT_VERTEX_RESULT_REG_TOKEN, NULL3}, NO_KW},
- {NT_VERTEX_ATTRIB_REG_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
-
- /* 70: */
- {NT_VERTEX_ATTRIB_REG_TOKEN, {NT_VTX_ATTRIB_BINDING_TOKEN, NULL3}, NO_KW},
- {NT_TEMPORARY_REG_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
- {NT_PROG_PARAM_REG_TOKEN, {NT_PROG_PARAM_SINGLE_TOKEN, NULL3}, NO_KW},
- {NT_PROG_PARAM_REG_TOKEN,
- {NT_PROG_PARAM_ARRAY_TOKEN, LBRACKET_TOKEN, NT_PROG_PARAM_ARRAY_MEM_TOKEN,
- RBRACKET_TOKEN}, NO_KW},
- {NT_PROG_PARAM_REG_TOKEN, {NT_PARAM_SINGLE_ITEM_USE_TOKEN, NULL3}, NO_KW},
-
- /* 75: */
- {NT_PROG_PARAM_SINGLE_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
- {NT_PROG_PARAM_ARRAY_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
- {NT_PROG_PARAM_ARRAY_MEM_TOKEN, {NT_PROG_PARAM_ARRAY_ABS_TOKEN, NULL3}, NO_KW},
- {NT_PROG_PARAM_ARRAY_MEM_TOKEN, {NT_PROG_PARAM_ARRAY_REL_TOKEN, NULL3}, NO_KW},
- /* -1 matches all */
- {NT_PROG_PARAM_ARRAY_ABS_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
-
-
- /* 80: */
- {NT_PROG_PARAM_ARRAY_REL_TOKEN,
- {NT_ADDR_REG_TOKEN, NT_ADDR_COMPONENT_TOKEN, NT_ADDR_REG_REL_OFFSET_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_ADDR_REG_REL_OFFSET_TOKEN, {NULL4}, NO_KW},
- {NT_ADDR_REG_REL_OFFSET_TOKEN,
- {PLUS_TOKEN, NT_ADDR_REG_POS_OFFSET_TOKEN, NULL2}, NO_KW},
- {NT_ADDR_REG_REL_OFFSET_TOKEN,
- {MINUS_TOKEN, NT_ADDR_REG_NEG_OFFSET_TOKEN, NULL2}, NO_KW},
- {NT_ADDR_REG_POS_OFFSET_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
-
- /* 85: */
- {NT_ADDR_REG_NEG_OFFSET_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_VERTEX_RESULT_REG_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
- {NT_VERTEX_RESULT_REG_TOKEN, {NT_RESULT_BINDING_TOKEN, NULL3}, NO_KW},
- {NT_ADDR_REG_TOKEN, {NT_ESTABLISHED_NAME_TOKEN, NULL3}, NO_KW},
- {NT_ADDR_COMPONENT_TOKEN, {PERIOD_TOKEN, ID_TOKEN, NULL2}, {"", "x", "", ""}},
-
- /* 90: */
- {NT_ADDR_WRITE_MASK_TOKEN, {PERIOD_TOKEN, ID_TOKEN, NULL2}, {"", "x", "", ""}},
- {NT_SCALAR_SUFFIX_TOKEN, {PERIOD_TOKEN, NT_COMPONENT_TOKEN, NULL2}, {"", "x", "", ""}},
- {NT_SWIZZLE_SUFFIX_TOKEN, {NULL4}, NO_KW},
- {NT_COMPONENT_TOKEN, {ID_TOKEN, NULL3}, {"x", "", "", ""}},
- {NT_COMPONENT_TOKEN, {ID_TOKEN, NULL3}, {"y", "", "", ""}},
-
- /* 95: */
- {NT_COMPONENT_TOKEN, {ID_TOKEN, NULL3}, {"z", "", "", ""}},
- {NT_COMPONENT_TOKEN, {ID_TOKEN, NULL3}, {"w", "", "", ""}},
- {NT_OPTIONAL_MASK_TOKEN, {PERIOD_TOKEN, NT_OPTIONAL_MASK2_TOKEN, NULL2}, NO_KW},
- {NT_OPTIONAL_MASK_TOKEN, {NULL4}, NO_KW},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"x", "", "", ""}},
-
- /* 100: */
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"y", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xy", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"z", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xz", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"yz", "", "", ""}},
-
- /* 105: */
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xyz", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"w", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xw", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"yw", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xyw", "", "", ""}},
-
- /* 110: */
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"zw", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xzw", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"yzw", "", "", ""}},
- {NT_OPTIONAL_MASK2_TOKEN, {ID_TOKEN, NULL3}, {"xyzw", "", "", ""}},
- {NT_NAMING_STATEMENT_TOKEN, {NT_ATTRIB_STATEMENT_TOKEN, NULL3}, NO_KW},
-
- /* 115: */
- {NT_NAMING_STATEMENT_TOKEN, {NT_PARAM_STATEMENT_TOKEN, NULL3}, NO_KW},
- {NT_NAMING_STATEMENT_TOKEN, {NT_TEMP_STATEMENT_TOKEN, NULL3}, NO_KW},
- {NT_NAMING_STATEMENT_TOKEN, {NT_ADDRESS_STATEMENT_TOKEN, NULL3}, NO_KW},
- {NT_NAMING_STATEMENT_TOKEN, {NT_OUTPUT_STATEMENT_TOKEN, NULL3}, NO_KW},
- {NT_NAMING_STATEMENT_TOKEN, {NT_ALIAS_STATEMENT_TOKEN, NULL3}, NO_KW},
-
- /* 120: */
- {NT_ATTRIB_STATEMENT_TOKEN,
- {ATTRIB_TOKEN, NT_ESTABLISH_NAME_TOKEN, EQUAL_TOKEN, NT_VTX_ATTRIB_BINDING_TOKEN}, NO_KW},
- {NT_VTX_ATTRIB_BINDING_TOKEN,
- {VERTEX_TOKEN, PERIOD_TOKEN, NT_VTX_ATTRIB_ITEM_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NULL3}, {"position", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NT_VTX_OPT_WEIGHT_NUM_TOKEN, NULL2},{"weight", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NULL3}, {"normal", "", "", ""}},
-
- /* 125: */
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NT_OPT_COLOR_TYPE_TOKEN, NULL2},
- {"color", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NULL3}, {"fogcoord", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN, {ID_TOKEN, NT_OPT_TEX_COORD_NUM_TOKEN, NULL2},
- {"texcoord", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_VTX_WEIGHT_NUM_TOKEN, RBRACKET_TOKEN},
- {"matrixindex", "", "", ""}},
- {NT_VTX_ATTRIB_ITEM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_VTX_ATTRIB_NUM_TOKEN, RBRACKET_TOKEN},
- {"attrib", "", "", ""}},
-
- /* 130: */
- {NT_VTX_ATTRIB_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, {NULL4}, NO_KW},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, {LBRACKET_TOKEN, NT_VTX_WEIGHT_NUM_TOKEN, RBRACKET_TOKEN, NULL_TOKEN},
- NO_KW},
- {NT_VTX_WEIGHT_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PARAM_STATEMENT_TOKEN,
- {PARAM_TOKEN, NT_ESTABLISH_NAME_TOKEN, NT_PARAM_STATEMENT2_TOKEN,
- NULL_TOKEN}, NO_KW},
-
- /* 135: */
- {NT_PARAM_STATEMENT2_TOKEN, {NT_PARAM_SINGLE_INIT_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_STATEMENT2_TOKEN, {LBRACKET_TOKEN, NT_OPT_ARRAY_SIZE_TOKEN, RBRACKET_TOKEN,
- NT_PARAM_MULTIPLE_INIT_TOKEN}, NO_KW},
- {NT_OPT_ARRAY_SIZE_TOKEN, {NULL4}, NO_KW},
- {NT_OPT_ARRAY_SIZE_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PARAM_SINGLE_INIT_TOKEN, {EQUAL_TOKEN, NT_PARAM_SINGLE_ITEM_DECL_TOKEN, NULL2},
- NO_KW},
-
-
- /* 140: */
- {NT_PARAM_MULTIPLE_INIT_TOKEN,
- {EQUAL_TOKEN, LBRACE_TOKEN, NT_PARAM_MULT_INIT_LIST_TOKEN, RBRACE_TOKEN},
- NO_KW},
- {NT_PARAM_MULT_INIT_LIST_TOKEN,
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, NT_PARAM_MULT_INIT_LIST2_TOKEN, NULL2},
- NO_KW},
- {NT_PARAM_MULT_INIT_LIST2_TOKEN,
- {COMMA_TOKEN, NT_PARAM_MULT_INIT_LIST_TOKEN, NULL2},
- NO_KW},
- {NT_PARAM_MULT_INIT_LIST2_TOKEN, {NULL4}, NO_KW},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, {NT_STATE_SINGLE_ITEM_TOKEN, NULL3},
- NO_KW},
-
- /* 145: */
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, {NT_PROGRAM_SINGLE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, {NT_PARAM_CONST_DECL_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, {NT_STATE_SINGLE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, {NT_PROGRAM_SINGLE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, {NT_PARAM_CONST_USE_TOKEN, NULL3}, NO_KW},
-
- /* 150: */
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, {NT_STATE_MULTIPLE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, {NT_PROGRAM_MULTIPLE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, {NT_PARAM_CONST_DECL_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM_TOKEN,
- {STATE_TOKEN, PERIOD_TOKEN, NT_STATE_MULTIPLE_ITEM2_TOKEN, NULL_TOKEN},
- NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_MATERIAL_ITEM_TOKEN, NULL3}, NO_KW},
-
- /* 155: */
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_LIGHT_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_LIGHT_MODEL_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_LIGHT_PROD_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_TEX_GEN_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_FOG_ITEM_TOKEN, NULL3}, NO_KW},
-
- /* 160: */
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_CLIP_PLANE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, {NT_STATE_POINT_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN,
- {ID_TOKEN, PERIOD_TOKEN, NT_STATE_MATRIX_NAME_TOKEN, NT_FOO_TOKEN},
- {"matrix", "", "", ""}},
- {NT_FOO_TOKEN, {PERIOD_TOKEN, NT_FOO2_TOKEN, NULL2}, NO_KW},
- {NT_FOO2_TOKEN, {NT_STATE_MAT_MODIFIER_TOKEN, NT_FOO3_TOKEN, NULL2}, NO_KW},
-
- /* 165: */
- {NT_FOO2_TOKEN, {ID_TOKEN, LBRACKET_TOKEN, NT_STATE_MATRIX_ROW_NUM_TOKEN, NT_FOO4_TOKEN},
- {"row", "", "", ""}},
- {NT_FOO3_TOKEN, {NULL4}, NO_KW},
- {NT_FOO3_TOKEN, {PERIOD_TOKEN, ID_TOKEN, LBRACKET_TOKEN, NT_FOO35_TOKEN},
- {"", "row", "", ""}},
- {NT_FOO35_TOKEN, {NT_STATE_MATRIX_ROW_NUM_TOKEN, NT_FOO4_TOKEN, NULL2},
- NO_KW},
- {NT_FOO4_TOKEN, {RBRACKET_TOKEN, NULL3}, NO_KW},
-
- /* 170: */
- {NT_FOO4_TOKEN, {DOTDOT_TOKEN, NT_STATE_MATRIX_ROW_NUM_TOKEN, RBRACKET_TOKEN, NULL_TOKEN},
- NO_KW},
- {NT_STATE_SINGLE_ITEM_TOKEN,
- {STATE_TOKEN, PERIOD_TOKEN, NT_STATE_SINGLE_ITEM2_TOKEN, NULL_TOKEN},
- NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_MATERIAL_ITEM_TOKEN, NULL3},
- NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_LIGHT_ITEM_TOKEN, NULL3},
- NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_LIGHT_MODEL_ITEM_TOKEN, NULL3},
- NO_KW},
-
- /* 175: */
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_LIGHT_PROD_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_TEX_GEN_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_FOG_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_CLIP_PLANE_ITEM_TOKEN, NULL3}, NO_KW},
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_POINT_ITEM_TOKEN, NULL3}, NO_KW},
-
- /* 180: */
- {NT_STATE_SINGLE_ITEM2_TOKEN, {NT_STATE_MATRIX_ROW_TOKEN, NULL3}, NO_KW},
- {NT_STATE_MATERIAL_ITEM_TOKEN,
- {ID_TOKEN, PERIOD_TOKEN, NT_STATE_MATERIAL_ITEM2_TOKEN, NULL_TOKEN},
- {"material", "", "", ""}},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, {NT_STATE_MAT_PROPERTY_TOKEN, NULL3},
- NO_KW},
- {NT_STATE_MATERIAL_ITEM2_TOKEN,
- {PERIOD_TOKEN, NT_OPT_FACE_TYPE2_TOKEN, PERIOD_TOKEN,
- NT_STATE_MAT_PROPERTY_TOKEN}, NO_KW},
- {NT_STATE_MAT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"ambient", "", "", ""}},
-
- /* 185 */
- {NT_STATE_MAT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"diffuse", "", "", ""}},
- {NT_STATE_MAT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"specular", "", "", ""}},
- {NT_STATE_MAT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"emission", "", "", ""}},
- {NT_STATE_MAT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"shininess", "", "", ""}},
- {NT_STATE_LIGHT_ITEM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_STATE_LIGHT_NUMBER_TOKEN,
- NT_STATE_LIGHT_ITEM2_TOKEN}, {"light", "", "", ""}},
-
- /* 190: */
- {NT_STATE_LIGHT_ITEM2_TOKEN, {RBRACKET_TOKEN, PERIOD_TOKEN, NT_STATE_LIGHT_PROPERTY_TOKEN, NULL_TOKEN},
- NO_KW},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"ambient", "", "", ""}},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"diffuse", "", "", ""}},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"specular", "", "", ""}},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"position", "", "", ""}},
-
- /* 195: */
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"attenuation", "", "", ""}},
- {NT_STATE_LIGHT_PROPERTY_TOKEN,
- {ID_TOKEN, PERIOD_TOKEN, NT_STATE_SPOT_PROPERTY_TOKEN, NULL_TOKEN},
- {"spot", "", "", ""}},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"half", "", "", ""}},
- {NT_STATE_SPOT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"direction", "", "", ""}},
- {NT_STATE_LIGHT_MODEL_ITEM_TOKEN,
- {ID_TOKEN, NT_STATE_LMOD_PROPERTY_TOKEN, NULL2}, {"lightmodel", "", "", ""}},
-
- /* 200: */
- {NT_STATE_LMOD_PROPERTY_TOKEN, {PERIOD_TOKEN, NT_STATE_LMOD_PROPERTY2_TOKEN, NULL2}, NO_KW},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, {ID_TOKEN, NULL3}, {"ambient", "", "", ""}},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, {ID_TOKEN, NULL3}, {"scenecolor", "", "", ""}},
- {NT_STATE_LMOD_PROPERTY2_TOKEN,
- {NT_OPT_FACE_TYPE2_TOKEN, PERIOD_TOKEN, ID_TOKEN, NULL_TOKEN},
- {"scenecolor", "", "", ""}},
- {NT_STATE_LIGHT_PROD_ITEM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_STATE_LIGHT_NUMBER_TOKEN,
- NT_STATE_LIGHT_PROD_ITEM15_TOKEN}, {"lightprod", "", "", ""}},
-
- /* 205: */
- {NT_STATE_LIGHT_PROD_ITEM15_TOKEN,
- {RBRACKET_TOKEN, PERIOD_TOKEN, NT_STATE_LIGHT_PROD_ITEM2_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, {NT_STATE_LPROD_PROPERTY_TOKEN, NULL3}, NO_KW},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN,
- {NT_OPT_FACE_TYPE2_TOKEN, PERIOD_TOKEN, NT_STATE_LPROD_PROPERTY_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_STATE_LPROD_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"diffuse", "", "", ""}},
- {NT_STATE_LPROD_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"ambient", "", "", ""}},
-
- /* 210: */
- {NT_STATE_LPROD_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"specular", "", "", ""}},
- {NT_STATE_LIGHT_NUMBER_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_STATE_TEX_GEN_ITEM_TOKEN, {ID_TOKEN, NT_OPT_TEX_COORD_NUM_TOKEN,
- NT_STATE_TEX_GEN_ITEM2_TOKEN, NULL_TOKEN}, {"texgen", "", "", ""}},
- {NT_STATE_TEX_GEN_ITEM2_TOKEN,{PERIOD_TOKEN, NT_STATE_TEX_GEN_TYPE_TOKEN, PERIOD_TOKEN,
- NT_STATE_TEX_GEN_COORD_TOKEN}, NO_KW},
- {NT_STATE_TEX_GEN_TYPE_TOKEN, {ID_TOKEN, NULL3}, {"eye", "", "", ""}},
-
- /* 215: */
- {NT_STATE_TEX_GEN_TYPE_TOKEN, {ID_TOKEN, NULL3}, {"object", "", "", ""}},
- {NT_STATE_TEX_GEN_COORD_TOKEN, {ID_TOKEN, NULL3}, {"s", "", "", ""}},
- {NT_STATE_TEX_GEN_COORD_TOKEN, {ID_TOKEN, NULL3}, {"t", "", "", ""}},
- {NT_STATE_TEX_GEN_COORD_TOKEN, {ID_TOKEN, NULL3}, {"r", "", "", ""}},
- {NT_STATE_TEX_GEN_COORD_TOKEN, {ID_TOKEN, NULL3}, {"q", "", "", ""}},
-
- /* 220: */
- {NT_STATE_FOG_ITEM_TOKEN, {ID_TOKEN, PERIOD_TOKEN, NT_STATE_FOG_PROPERTY_TOKEN, NULL_TOKEN},
- {"fog", "","",""}},
- {NT_STATE_FOG_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"color", "", "", ""}},
- {NT_STATE_FOG_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"params", "", "", ""}},
- {NT_STATE_CLIP_PLANE_ITEM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_STATE_CLIP_PLANE_NUM_TOKEN,
- NT_STATE_CLIP_PLANE_ITEM2_TOKEN}, {"clip", "", "", ""}},
- {NT_STATE_CLIP_PLANE_ITEM2_TOKEN,
- {RBRACKET_TOKEN, PERIOD_TOKEN, ID_TOKEN, NULL_TOKEN},
- {"", "", "plane", ""}},
-
- /* 225: */
- {NT_STATE_CLIP_PLANE_NUM_TOKEN,{INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_STATE_POINT_ITEM_TOKEN, {ID_TOKEN, PERIOD_TOKEN, NT_STATE_POINT_PROPERTY_TOKEN, NULL_TOKEN},
- {"point", "", "", ""}},
- {NT_STATE_POINT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"size", "", "", ""}},
- {NT_STATE_POINT_PROPERTY_TOKEN, {ID_TOKEN, NULL3}, {"attenuation", "", "", ""}},
- {NT_STATE_MATRIX_ROW_TOKEN, {ID_TOKEN, PERIOD_TOKEN, NT_STATE_MATRIX_NAME_TOKEN,
- NT_STATE_MATRIX_ROW15_TOKEN}, {"matrix", "", "", ""}},
-
- /* 230: */
- {NT_STATE_MATRIX_ROW15_TOKEN, {PERIOD_TOKEN, NT_STATE_MATRIX_ROW2_TOKEN, NULL2}, NO_KW},
- {NT_STATE_MATRIX_ROW2_TOKEN, {ID_TOKEN, LBRACKET_TOKEN,
- NT_STATE_MATRIX_ROW_NUM_TOKEN, RBRACKET_TOKEN},
- {"row", "", "", ""}},
- {NT_STATE_MATRIX_ROW2_TOKEN, {NT_STATE_MAT_MODIFIER_TOKEN, PERIOD_TOKEN, ID_TOKEN,
- NT_STATE_MATRIX_ROW3_TOKEN},
- {"", "", "row", ""}},
- {NT_STATE_MATRIX_ROW3_TOKEN, {LBRACKET_TOKEN, NT_STATE_MATRIX_ROW_NUM_TOKEN, RBRACKET_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_STATE_MAT_MODIFIER_TOKEN, {ID_TOKEN, NULL3}, {"inverse", "", "", ""}},
-
- /* 235: */
- {NT_STATE_MAT_MODIFIER_TOKEN, {ID_TOKEN, NULL3}, {"transpose", "", "", ""}},
- {NT_STATE_MAT_MODIFIER_TOKEN, {ID_TOKEN, NULL3}, {"invtrans", "", "", ""}},
- {NT_STATE_MATRIX_ROW_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_STATE_MATRIX_NAME_TOKEN, {ID_TOKEN, NT_STATE_OPT_MOD_MAT_NUM_TOKEN, NULL2},
- {"modelview", "", "", ""}},
- {NT_STATE_MATRIX_NAME_TOKEN, {ID_TOKEN, NULL3}, {"projection", "", "", ""}},
-
- /* 240: */
- {NT_STATE_MATRIX_NAME_TOKEN, {ID_TOKEN, NULL3}, {"mvp", "", "", ""}},
- {NT_STATE_MATRIX_NAME_TOKEN, {ID_TOKEN, NT_OPT_TEX_COORD_NUM_TOKEN, NULL2},
- {"texture", "", "", ""}},
- {NT_STATE_MATRIX_NAME_TOKEN, {ID_TOKEN, LBRACKET_TOKEN, NT_STATE_PALETTE_MAT_NUM_TOKEN,
- RBRACKET_TOKEN}, {"palette", "", "", ""}},
- {NT_STATE_MATRIX_NAME_TOKEN, {PROGRAM_TOKEN, LBRACKET_TOKEN, NT_STATE_PROGRAM_MAT_NUM_TOKEN,
- RBRACKET_TOKEN}, NO_KW},
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN, {NULL4}, NO_KW},
-
- /* 245: */
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN,
- {LBRACKET_TOKEN, NT_STATE_MOD_MAT_NUM_TOKEN, RBRACKET_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_STATE_MOD_MAT_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_STATE_PALETTE_MAT_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_STATE_PROGRAM_MAT_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PROGRAM_SINGLE_ITEM_TOKEN,
- {PROGRAM_TOKEN, PERIOD_TOKEN, NT_PROGRAM_SINGLE_ITEM2_TOKEN, NULL_TOKEN}, NO_KW},
-
- /* 250: */
- {NT_PROGRAM_SINGLE_ITEM2_TOKEN, {NT_PROG_ENV_PARAM_TOKEN, NULL3}, NO_KW},
- {NT_PROGRAM_SINGLE_ITEM2_TOKEN, {NT_PROG_LOCAL_PARAM_TOKEN, NULL3}, NO_KW},
- {NT_PROGRAM_MULTIPLE_ITEM_TOKEN,
- {PROGRAM_TOKEN, PERIOD_TOKEN, NT_PROGRAM_MULTIPLE_ITEM2_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_PROGRAM_MULTIPLE_ITEM2_TOKEN, {NT_PROG_ENV_PARAMS_TOKEN, NULL3}, NO_KW},
- {NT_PROGRAM_MULTIPLE_ITEM2_TOKEN, {NT_PROG_LOCAL_PARAMS_TOKEN, NULL3}, NO_KW},
-
- /* 255: */
- {NT_PROG_ENV_PARAMS_TOKEN, {ID_TOKEN, LBRACKET_TOKEN, NT_PROG_ENV_PARAM_NUMS_TOKEN, RBRACKET_TOKEN},
- {"env", "", "", ""}},
- {NT_PROG_ENV_PARAM_NUMS_TOKEN, {NT_PROG_ENV_PARAM_NUM_TOKEN, NT_PROG_ENV_PARAM_NUMS2_TOKEN, NULL2},
- NO_KW},
- {NT_PROG_ENV_PARAM_NUMS2_TOKEN, {DOTDOT_TOKEN, NT_PROG_ENV_PARAM_NUM_TOKEN, NULL2}, NO_KW},
- {NT_PROG_ENV_PARAM_NUMS2_TOKEN, {NULL4}, NO_KW},
- {NT_PROG_ENV_PARAM_TOKEN,
- {ID_TOKEN, LBRACKET_TOKEN, NT_PROG_ENV_PARAM_NUM_TOKEN, RBRACKET_TOKEN},
- {"env", "", "", ""}},
-
- /* 260: */
- {NT_PROG_LOCAL_PARAMS_TOKEN, {ID_TOKEN, LBRACKET_TOKEN, NT_PROG_LOCAL_PARAM_NUMS_TOKEN,
- RBRACKET_TOKEN}, {"local", "", "", ""}},
- {NT_PROG_LOCAL_PARAM_NUMS_TOKEN,
- {NT_PROG_LOCAL_PARAM_NUM_TOKEN, NT_PROG_LOCAL_PARAM_NUMS2_TOKEN, NULL2},
- NO_KW},
- {NT_PROG_LOCAL_PARAM_NUMS2_TOKEN, {DOTDOT_TOKEN, NT_PROG_LOCAL_PARAM_NUM_TOKEN, NULL2}, NO_KW},
- {NT_PROG_LOCAL_PARAM_NUMS2_TOKEN, {NULL4}, NO_KW},
- {NT_PROG_LOCAL_PARAM_TOKEN, {ID_TOKEN, LBRACKET_TOKEN, NT_PROG_LOCAL_PARAM_NUM_TOKEN, RBRACKET_TOKEN},
- {"local", "", "", ""}},
-
- /* 265: */
- {NT_PROG_ENV_PARAM_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PROG_LOCAL_PARAM_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PARAM_CONST_DECL_TOKEN, {NT_PARAM_CONST_SCALAR_DECL_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_DECL_TOKEN, {NT_PARAM_CONST_VECTOR_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_USE_TOKEN, {NT_PARAM_CONST_SCALAR_USE_TOKEN, NULL3}, NO_KW},
-
- /* 270: */
- {NT_PARAM_CONST_USE_TOKEN, {NT_PARAM_CONST_VECTOR_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_SCALAR_DECL_TOKEN, {NT_SIGNED_FLOAT_CONSTANT_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_SCALAR_USE_TOKEN, {FLOAT_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_PARAM_CONST_VECTOR_TOKEN, {LBRACE_TOKEN, NT_SIGNED_FLOAT_CONSTANT_TOKEN,
- NT_PARAM_CONST_VECTOR2_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_PARAM_CONST_VECTOR2_TOKEN,{RBRACE_TOKEN, NULL3}, NO_KW},
-
- /* 275: */
- {NT_PARAM_CONST_VECTOR2_TOKEN, {COMMA_TOKEN, NT_SIGNED_FLOAT_CONSTANT_TOKEN,
- NT_PARAM_CONST_VECTOR3_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_PARAM_CONST_VECTOR3_TOKEN, {RBRACE_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_VECTOR3_TOKEN, {COMMA_TOKEN, NT_SIGNED_FLOAT_CONSTANT_TOKEN,
- NT_PARAM_CONST_VECTOR4_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_PARAM_CONST_VECTOR4_TOKEN, {RBRACE_TOKEN, NULL3}, NO_KW},
- {NT_PARAM_CONST_VECTOR4_TOKEN, {COMMA_TOKEN, NT_SIGNED_FLOAT_CONSTANT_TOKEN,
- RBRACE_TOKEN, NULL_TOKEN}, NO_KW},
-
- /* 280: */
- {NT_SIGNED_FLOAT_CONSTANT_TOKEN, {NT_OPTIONAL_SIGN_TOKEN, FLOAT_TOKEN, NULL2},
- {"", "-1", "", ""}},
- {NT_OPTIONAL_SIGN_TOKEN, {NULL4}, NO_KW},
- {NT_OPTIONAL_SIGN_TOKEN, {MINUS_TOKEN, NULL3}, NO_KW},
- {NT_OPTIONAL_SIGN_TOKEN, {PLUS_TOKEN, NULL3}, NO_KW},
- {NT_TEMP_STATEMENT_TOKEN, {TEMP_TOKEN, NT_VAR_NAME_LIST_TOKEN, NULL2},
- NO_KW},
-
- /* 285: */
- {NT_ADDRESS_STATEMENT_TOKEN, {ADDRESS_TOKEN, NT_VAR_NAME_LIST_TOKEN, NULL2}, NO_KW},
- {NT_VAR_NAME_LIST_TOKEN, {NT_ESTABLISH_NAME_TOKEN, NULL3}, NO_KW},
- {NT_VAR_NAME_LIST_TOKEN, {NT_ESTABLISH_NAME_TOKEN, COMMA_TOKEN, NT_VAR_NAME_LIST_TOKEN,
- NULL_TOKEN}, NO_KW},
- {NT_OUTPUT_STATEMENT_TOKEN, {OUTPUT_TOKEN, NT_ESTABLISH_NAME_TOKEN, EQUAL_TOKEN,
- NT_RESULT_BINDING_TOKEN}, NO_KW},
- {NT_RESULT_BINDING_TOKEN, {RESULT_TOKEN, PERIOD_TOKEN, NT_RESULT_BINDING2_TOKEN, NULL_TOKEN},
- NO_KW},
-
- /* 290: */
- {NT_RESULT_BINDING2_TOKEN, {ID_TOKEN, NULL3}, {"position", "", "", ""}},
- {NT_RESULT_BINDING2_TOKEN, {ID_TOKEN, NULL3}, {"fogcoord", "", "", ""}},
- {NT_RESULT_BINDING2_TOKEN, {ID_TOKEN, NULL3}, {"pointsize", "", "", ""}},
- {NT_RESULT_BINDING2_TOKEN, {NT_RESULT_COL_BINDING_TOKEN, NULL3}, NO_KW},
- {NT_RESULT_BINDING2_TOKEN, {ID_TOKEN, NT_OPT_TEX_COORD_NUM_TOKEN, NULL2},
- {"texcoord", "", "", ""}},
-
- /* 295: */
- {NT_RESULT_COL_BINDING_TOKEN, {ID_TOKEN, NT_RESULT_COL_BINDING2_TOKEN, NULL2}, {"color", "", "", ""}},
- {NT_RESULT_COL_BINDING2_TOKEN, {NULL4}, NO_KW},
- {NT_RESULT_COL_BINDING2_TOKEN, {PERIOD_TOKEN, NT_RESULT_COL_BINDING3_TOKEN, NULL2}, NO_KW},
- {NT_RESULT_COL_BINDING3_TOKEN, {ID_TOKEN, NT_RESULT_COL_BINDING4_TOKEN, NULL2}, {"front", "", "", ""}},
- {NT_RESULT_COL_BINDING3_TOKEN, {ID_TOKEN, NT_RESULT_COL_BINDING4_TOKEN, NULL2}, {"back", "", "", ""}},
-
- /* 300: */
- {NT_RESULT_COL_BINDING4_TOKEN, {NULL4}, NO_KW},
- {NT_RESULT_COL_BINDING4_TOKEN, {PERIOD_TOKEN, NT_RESULT_COL_BINDING5_TOKEN, NULL2}, NO_KW},
- {NT_RESULT_COL_BINDING5_TOKEN, {ID_TOKEN, NULL3}, {"primary", "", "", ""}},
- {NT_RESULT_COL_BINDING5_TOKEN, {ID_TOKEN, NULL3}, {"secondary", "", "", ""}},
- {NT_OPT_FACE_TYPE2_TOKEN, {ID_TOKEN, NULL3}, {"front", "", "", ""}},
-
- /* 305: */
- {NT_OPT_FACE_TYPE2_TOKEN, {ID_TOKEN, NULL3}, {"back", "", "", ""}},
- {NT_OPT_COLOR_TYPE_TOKEN, {PERIOD_TOKEN, NT_OPT_COLOR_TYPE2_TOKEN, NULL2}, NO_KW},
- {NT_OPT_COLOR_TYPE_TOKEN, {NULL4}, NO_KW},
- {NT_OPT_COLOR_TYPE2_TOKEN, {ID_TOKEN, NULL3}, {"primary", "", "", ""}},
- {NT_OPT_COLOR_TYPE2_TOKEN, {ID_TOKEN, NULL3}, {"secondary", "", "", ""}},
-
- /* 310: */
- {NT_OPT_TEX_COORD_NUM_TOKEN, {NULL4}, NO_KW},
- {NT_OPT_TEX_COORD_NUM_TOKEN,
- {LBRACKET_TOKEN, NT_TEX_COORD_NUM_TOKEN, RBRACKET_TOKEN, NULL_TOKEN}, NO_KW},
- {NT_TEX_COORD_NUM_TOKEN, {INTEGER_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_ALIAS_STATEMENT_TOKEN, {ALIAS_TOKEN, NT_ESTABLISH_NAME_TOKEN, EQUAL_TOKEN,
- NT_ESTABLISHED_NAME_TOKEN}, NO_KW},
- {NT_ESTABLISH_NAME_TOKEN, {ID_TOKEN, NULL3}, {"-1", "", "", ""}},
-
- /* 315: */
- {NT_ESTABLISHED_NAME_TOKEN, {ID_TOKEN, NULL3}, {"-1", "", "", ""}},
- {NT_FOO_TOKEN, {NULL4}, NO_KW},
- {NT_SWIZZLE_SUFFIX_TOKEN, {PERIOD_TOKEN, NT_SWIZZLE_SUFFIX2_TOKEN, NULL2},
- NO_KW},
- {NT_SWIZZLE_SUFFIX2_TOKEN, {NT_COMPONENT_TOKEN, NULL3}, NO_KW},
- {NT_SWIZZLE_SUFFIX2_TOKEN, {NT_COMPONENT4_TOKEN, NULL3}, NO_KW},
-};
-
-/* This is the look ahead table. See the look_ahead_table struct def for a description */
-look_ahead_table latab[] = {
- {NT_PROGRAM_TOKEN, ABS_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, ADD_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, ADDRESS_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, ALIAS_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, ARL_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, ATTRIB_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, DP3_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, DP4_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, DPH_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, DST_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, END_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, EOF_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, EX2_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, EXP_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, FLR_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, FRC_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, LIT_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, LG2_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, LOG_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, MAD_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, MAX_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, MIN_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, MOV_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, MUL_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, OPTION_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, OUTPUT_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, PARAM_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, POW_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, RCP_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, RSQ_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, SGE_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, SLT_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, SUB_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, SWZ_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, XPD_TOKEN, "", 0},
- {NT_PROGRAM_TOKEN, TEMP_TOKEN, "", 0},
-
- {NT_OPTION_SEQUENCE_TOKEN, ABS_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, ADD_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, ADDRESS_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, ALIAS_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, ARL_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, ATTRIB_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, DP3_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, DP4_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, DPH_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, DST_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, END_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, EX2_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, EXP_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, FLR_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, FRC_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, LIT_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, LG2_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, LOG_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, MAD_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, MAX_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, MIN_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, MOV_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, MUL_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, OPTION_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, OUTPUT_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, PARAM_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, POW_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, RCP_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, RSQ_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, SGE_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, SLT_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, SUB_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, SWZ_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, XPD_TOKEN, "", 1},
- {NT_OPTION_SEQUENCE_TOKEN, TEMP_TOKEN, "", 1},
-
- {NT_OPTION_SEQUENCE2_TOKEN, OPTION_TOKEN, "", 2},
-
- {NT_OPTION_SEQUENCE2_TOKEN, ABS_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, ADD_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, ADDRESS_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, ALIAS_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, ARL_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, ATTRIB_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, DP3_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, DP4_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, DPH_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, DST_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, END_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, EX2_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, EXP_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, FLR_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, FRC_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, LIT_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, LG2_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, LOG_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, MAD_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, MAX_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, MIN_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, MOV_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, MUL_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, OUTPUT_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, PARAM_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, POW_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, RCP_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, RSQ_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, SGE_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, SLT_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, SUB_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, SWZ_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, XPD_TOKEN, "", 3},
- {NT_OPTION_SEQUENCE2_TOKEN, TEMP_TOKEN, "", 3},
-
- {NT_OPTION_TOKEN, OPTION_TOKEN, "", 4},
-
- {NT_STATEMENT_SEQUENCE_TOKEN, ABS_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, ADD_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, ADDRESS_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, ALIAS_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, ARL_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, ATTRIB_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, DP3_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, DP4_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, DPH_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, DST_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, END_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, EX2_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, EXP_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, FLR_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, FRC_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, LIT_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, LG2_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, LOG_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, MAD_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, MAX_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, MIN_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, MOV_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, MUL_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, OUTPUT_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, PARAM_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, POW_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, RCP_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, RSQ_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, SGE_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, SLT_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, SUB_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, SWZ_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, XPD_TOKEN, "", 5},
- {NT_STATEMENT_SEQUENCE_TOKEN, TEMP_TOKEN, "", 5},
-
- {NT_STATEMENT_SEQUENCE2_TOKEN, ABS_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, ADD_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, ADDRESS_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, ALIAS_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, ARL_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, ATTRIB_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, DP3_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, DP4_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, DPH_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, DST_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, EX2_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, EXP_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, FLR_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, FRC_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, LIT_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, LG2_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, LOG_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, MAD_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, MAX_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, MIN_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, MOV_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, MUL_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, OUTPUT_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, PARAM_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, POW_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, RCP_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, RSQ_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, SGE_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, SLT_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, SUB_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, SWZ_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, XPD_TOKEN, "", 6},
- {NT_STATEMENT_SEQUENCE2_TOKEN, TEMP_TOKEN, "", 6},
-
- {NT_STATEMENT_SEQUENCE2_TOKEN, END_TOKEN, "", 7},
-
-
- {NT_STATEMENT_TOKEN, ABS_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, ADD_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, ARL_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, DP3_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, DP4_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, DPH_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, DST_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, EX2_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, EXP_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, FLR_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, FRC_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, LIT_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, LG2_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, LOG_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, MAD_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, MAX_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, MIN_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, MOV_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, MUL_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, POW_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, RCP_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, RSQ_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, SGE_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, SLT_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, SUB_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, SWZ_TOKEN, "", 8},
- {NT_STATEMENT_TOKEN, XPD_TOKEN, "", 8},
-
- {NT_STATEMENT_TOKEN, ADDRESS_TOKEN, "", 9},
- {NT_STATEMENT_TOKEN, ALIAS_TOKEN, "", 9},
- {NT_STATEMENT_TOKEN, ATTRIB_TOKEN, "", 9},
- {NT_STATEMENT_TOKEN, OUTPUT_TOKEN, "", 9},
- {NT_STATEMENT_TOKEN, PARAM_TOKEN, "", 9},
- {NT_STATEMENT_TOKEN, TEMP_TOKEN, "", 9},
-
- {NT_INSTRUCTION_TOKEN, ARL_TOKEN, "", 10},
-
- {NT_INSTRUCTION_TOKEN, ABS_TOKEN, "", 11},
- {NT_INSTRUCTION_TOKEN, FLR_TOKEN, "", 11},
- {NT_INSTRUCTION_TOKEN, FRC_TOKEN, "", 11},
- {NT_INSTRUCTION_TOKEN, LIT_TOKEN, "", 11},
- {NT_INSTRUCTION_TOKEN, MOV_TOKEN, "", 11},
-
- {NT_INSTRUCTION_TOKEN, EX2_TOKEN, "", 12},
- {NT_INSTRUCTION_TOKEN, EXP_TOKEN, "", 12},
- {NT_INSTRUCTION_TOKEN, LG2_TOKEN, "", 12},
- {NT_INSTRUCTION_TOKEN, LOG_TOKEN, "", 12},
- {NT_INSTRUCTION_TOKEN, RCP_TOKEN, "", 12},
- {NT_INSTRUCTION_TOKEN, RSQ_TOKEN, "", 12},
-
- {NT_INSTRUCTION_TOKEN, POW_TOKEN, "", 13},
-
- {NT_INSTRUCTION_TOKEN, ADD_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, DP3_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, DP4_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, DPH_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, DST_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, MAX_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, MIN_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, MUL_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, SGE_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, SLT_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, SUB_TOKEN, "", 14},
- {NT_INSTRUCTION_TOKEN, XPD_TOKEN, "", 14},
-
- {NT_INSTRUCTION_TOKEN, MAD_TOKEN, "", 15},
-
- {NT_INSTRUCTION_TOKEN, SWZ_TOKEN, "", 16},
-
- {NT_ARL_INSTRUCTION_TOKEN, ARL_TOKEN, "", 17},
-
- {NT_VECTOROP_INSTRUCTION_TOKEN, ABS_TOKEN, "", 18},
- {NT_VECTOROP_INSTRUCTION_TOKEN, FLR_TOKEN, "", 18},
- {NT_VECTOROP_INSTRUCTION_TOKEN, FRC_TOKEN, "", 18},
- {NT_VECTOROP_INSTRUCTION_TOKEN, LIT_TOKEN, "", 18},
- {NT_VECTOROP_INSTRUCTION_TOKEN, MOV_TOKEN, "", 18},
-
- {NT_VECTOROP_TOKEN, ABS_TOKEN, "", 19},
-
- {NT_VECTOROP_TOKEN, FLR_TOKEN, "", 20},
-
- {NT_VECTOROP_TOKEN, FRC_TOKEN, "", 21},
-
- {NT_VECTOROP_TOKEN, LIT_TOKEN, "", 22},
-
- {NT_VECTOROP_TOKEN, MOV_TOKEN, "", 23},
-
- {NT_SCALAROP_INSTRUCTION_TOKEN, EX2_TOKEN, "", 24},
- {NT_SCALAROP_INSTRUCTION_TOKEN, EXP_TOKEN, "", 24},
- {NT_SCALAROP_INSTRUCTION_TOKEN, LG2_TOKEN, "", 24},
- {NT_SCALAROP_INSTRUCTION_TOKEN, LOG_TOKEN, "", 24},
- {NT_SCALAROP_INSTRUCTION_TOKEN, RCP_TOKEN, "", 24},
- {NT_SCALAROP_INSTRUCTION_TOKEN, RSQ_TOKEN, "", 24},
-
- {NT_SCALAROP_TOKEN, EX2_TOKEN, "", 25},
-
- {NT_SCALAROP_TOKEN, EXP_TOKEN, "", 26},
-
- {NT_SCALAROP_TOKEN, LG2_TOKEN, "", 27},
-
- {NT_SCALAROP_TOKEN, LOG_TOKEN, "", 28},
-
- {NT_SCALAROP_TOKEN, RCP_TOKEN, "", 29},
-
- {NT_SCALAROP_TOKEN, RSQ_TOKEN, "", 30},
-
- {NT_BINSCOP_INSTRUCTION_TOKEN, POW_TOKEN, "", 31},
-
- {NT_BINSCOP_INSTRUCTION2_TOKEN, COMMA_TOKEN, "", 32},
-
- {NT_BINSCOP_TOKEN, POW_TOKEN, "", 33},
-
- {NT_BINOP_INSTRUCTION_TOKEN, ADD_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, DP3_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, DP4_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, DPH_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, DST_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, MAX_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, MIN_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, MUL_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, SGE_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, SLT_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, SUB_TOKEN, "", 34},
- {NT_BINOP_INSTRUCTION_TOKEN, XPD_TOKEN, "", 34},
-
- {NT_BINOP_INSTRUCTION2_TOKEN, COMMA_TOKEN, "", 35},
-
- {NT_BINOP_TOKEN, ADD_TOKEN, "", 36},
- {NT_BINOP_TOKEN, DP3_TOKEN, "", 37},
- {NT_BINOP_TOKEN, DP4_TOKEN, "", 38},
- {NT_BINOP_TOKEN, DPH_TOKEN, "", 39},
- {NT_BINOP_TOKEN, DST_TOKEN, "", 40},
- {NT_BINOP_TOKEN, MAX_TOKEN, "", 41},
- {NT_BINOP_TOKEN, MIN_TOKEN, "", 42},
- {NT_BINOP_TOKEN, MUL_TOKEN, "", 43},
- {NT_BINOP_TOKEN, SGE_TOKEN, "", 44},
- {NT_BINOP_TOKEN, SLT_TOKEN, "", 45},
- {NT_BINOP_TOKEN, SUB_TOKEN, "", 46},
- {NT_BINOP_TOKEN, XPD_TOKEN, "", 47},
-
- {NT_TRIOP_INSTRUCTION_TOKEN, MAD_TOKEN, "", 48},
- {NT_TRIOP_INSTRUCTION2_TOKEN, COMMA_TOKEN, "", 49},
- {NT_TRIOP_INSTRUCTION3_TOKEN, COMMA_TOKEN, "", 50},
-
- {NT_TRIOP_TOKEN, MAD_TOKEN, "", 51},
- {NT_SWZ_INSTRUCTION_TOKEN, SWZ_TOKEN, "", 52},
- {NT_SWZ_INSTRUCTION2_TOKEN, COMMA_TOKEN, "", 53},
-
- {NT_SCALAR_SRC_REG_TOKEN, PLUS_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, MINUS_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, VERTEX_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, STATE_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, PROGRAM_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, LBRACE_TOKEN, "", 54},
- {NT_SCALAR_SRC_REG_TOKEN, FLOAT_TOKEN, "-1", 54},
- {NT_SCALAR_SRC_REG_TOKEN, INTEGER_TOKEN, "-1", 54},
- {NT_SCALAR_SRC_REG_TOKEN, ID_TOKEN, "-1", 54},
-
- {NT_SWIZZLE_SRC_REG_TOKEN, PLUS_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, MINUS_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, VERTEX_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, STATE_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, PROGRAM_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, LBRACE_TOKEN, "", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, FLOAT_TOKEN, "-1", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, INTEGER_TOKEN, "-1", 55},
- {NT_SWIZZLE_SRC_REG_TOKEN, ID_TOKEN, "-1", 55},
-
- {NT_MASKED_DST_REG_TOKEN, ID_TOKEN, "-1", 56},
- {NT_MASKED_DST_REG_TOKEN, RESULT_TOKEN, "", 56},
- {NT_MASKED_ADDR_REG_TOKEN, ID_TOKEN, "-1", 57},
-
- {NT_EXTENDED_SWIZZLE_TOKEN, PLUS_TOKEN, "", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, MINUS_TOKEN, "", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, INTEGER_TOKEN, "0", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, INTEGER_TOKEN, "1", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, ID_TOKEN, "x", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, ID_TOKEN, "y", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, ID_TOKEN, "z", 58},
- {NT_EXTENDED_SWIZZLE_TOKEN, ID_TOKEN, "w", 58},
-
- {NT_EXTENDED_SWIZZLE2_TOKEN, COMMA_TOKEN, "", 59},
-
- {NT_EXT_SWIZ_COMP_TOKEN, PLUS_TOKEN, "", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, MINUS_TOKEN, "", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, INTEGER_TOKEN, "0", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, INTEGER_TOKEN, "1", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, ID_TOKEN, "x", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, ID_TOKEN, "y", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, ID_TOKEN, "z", 60},
- {NT_EXT_SWIZ_COMP_TOKEN, ID_TOKEN, "w", 60},
-
- {NT_EXT_SWIZ_SEL_TOKEN, INTEGER_TOKEN, "0", 61},
- {NT_EXT_SWIZ_SEL_TOKEN, INTEGER_TOKEN, "1", 62},
- {NT_EXT_SWIZ_SEL_TOKEN, ID_TOKEN, "x", 63},
- {NT_EXT_SWIZ_SEL_TOKEN, ID_TOKEN, "y", 63},
- {NT_EXT_SWIZ_SEL_TOKEN, ID_TOKEN, "z", 63},
- {NT_EXT_SWIZ_SEL_TOKEN, ID_TOKEN, "w", 63},
+#include "arbparse.h"
- /* Special case for 64 - 68 */
- {NT_DST_REG_TOKEN, RESULT_TOKEN, "", 68},
- {NT_VERTEX_ATTRIB_REG_TOKEN, ID_TOKEN, "-1", 69},
- {NT_VERTEX_ATTRIB_REG_TOKEN, VERTEX_TOKEN, "", 70},
- {NT_TEMPORARY_REG_TOKEN, ID_TOKEN, "-1", 71},
-
- /* Special case for 72 - 73 */
-
- {NT_PROG_PARAM_REG_TOKEN, STATE_TOKEN, "", 74},
- {NT_PROG_PARAM_REG_TOKEN, PROGRAM_TOKEN, "", 74},
- {NT_PROG_PARAM_REG_TOKEN, LBRACE_TOKEN, "", 74},
- {NT_PROG_PARAM_REG_TOKEN, FLOAT_TOKEN, "-1", 74},
-
- {NT_PROG_PARAM_SINGLE_TOKEN, ID_TOKEN, "-1", 75},
- {NT_PROG_PARAM_ARRAY_TOKEN, ID_TOKEN, "-1", 76},
- {NT_PROG_PARAM_ARRAY_MEM_TOKEN, INTEGER_TOKEN, "-1", 77},
- {NT_PROG_PARAM_ARRAY_MEM_TOKEN, ID_TOKEN, "-1", 78},
- {NT_PROG_PARAM_ARRAY_ABS_TOKEN, INTEGER_TOKEN, "-1", 79},
- {NT_PROG_PARAM_ARRAY_REL_TOKEN, ID_TOKEN, "-1", 80},
-
- {NT_ADDR_REG_REL_OFFSET_TOKEN, RBRACKET_TOKEN, "", 81},
- {NT_ADDR_REG_REL_OFFSET_TOKEN, PLUS_TOKEN, "", 82},
- {NT_ADDR_REG_REL_OFFSET_TOKEN, MINUS_TOKEN, "", 83},
- {NT_ADDR_REG_POS_OFFSET_TOKEN, INTEGER_TOKEN, "-1", 84},
- {NT_ADDR_REG_NEG_OFFSET_TOKEN, INTEGER_TOKEN, "-1", 85},
-
-
- {NT_VERTEX_RESULT_REG_TOKEN, ID_TOKEN, "-1", 86},
- {NT_VERTEX_RESULT_REG_TOKEN, RESULT_TOKEN, "", 87},
- {NT_ADDR_REG_TOKEN, ID_TOKEN, "-1", 88},
- {NT_ADDR_COMPONENT_TOKEN, PERIOD_TOKEN, "", 89},
- {NT_ADDR_WRITE_MASK_TOKEN, PERIOD_TOKEN, "", 90},
-
- {NT_SCALAR_SUFFIX_TOKEN, PERIOD_TOKEN, "", 91},
-
- {NT_SWIZZLE_SUFFIX_TOKEN, COMMA_TOKEN, "", 92},
- {NT_SWIZZLE_SUFFIX_TOKEN, SEMICOLON_TOKEN, "", 92},
- {NT_SWIZZLE_SUFFIX_TOKEN, PERIOD_TOKEN, "", 317},
-
- {NT_COMPONENT_TOKEN, ID_TOKEN, "x", 93},
- {NT_COMPONENT_TOKEN, ID_TOKEN, "y", 94},
- {NT_COMPONENT_TOKEN, ID_TOKEN, "z", 95},
- {NT_COMPONENT_TOKEN, ID_TOKEN, "w", 96},
-
- {NT_OPTIONAL_MASK_TOKEN, PERIOD_TOKEN, "", 97},
- {NT_OPTIONAL_MASK_TOKEN, COMMA_TOKEN, "", 98},
-
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "x", 99},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "y", 100},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xy", 101},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "z", 102},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xz", 103},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "yz", 104},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xyz", 105},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "w", 106},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xw", 107},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "yw", 108},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xyw", 109},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "zw", 110},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xzw", 111},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "yzw", 112},
- {NT_OPTIONAL_MASK2_TOKEN, ID_TOKEN, "xyzw", 113},
-
-
- {NT_NAMING_STATEMENT_TOKEN, ATTRIB_TOKEN, "", 114},
- {NT_NAMING_STATEMENT_TOKEN, PARAM_TOKEN, "", 115},
- {NT_NAMING_STATEMENT_TOKEN, TEMP_TOKEN, "", 116},
- {NT_NAMING_STATEMENT_TOKEN, ADDRESS_TOKEN, "", 117},
- {NT_NAMING_STATEMENT_TOKEN, OUTPUT_TOKEN, "", 118},
- {NT_NAMING_STATEMENT_TOKEN, ALIAS_TOKEN, "", 119},
-
- {NT_ATTRIB_STATEMENT_TOKEN, ATTRIB_TOKEN, "", 120},
- {NT_VTX_ATTRIB_BINDING_TOKEN, VERTEX_TOKEN, "", 121},
-
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "position", 122},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "weight", 123},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "normal", 124},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "color", 125},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "fogcoord", 126},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "texcoord", 127},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "matrixindex", 128},
- {NT_VTX_ATTRIB_ITEM_TOKEN, ID_TOKEN, "attrib", 129},
-
- {NT_VTX_ATTRIB_NUM_TOKEN, INTEGER_TOKEN, "-1", 130},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, SEMICOLON_TOKEN, "", 131},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, COMMA_TOKEN, "", 131},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, PERIOD_TOKEN, "", 131},
- {NT_VTX_OPT_WEIGHT_NUM_TOKEN, LBRACKET_TOKEN, "", 132},
-
- {NT_VTX_WEIGHT_NUM_TOKEN, INTEGER_TOKEN, "-1", 133},
- {NT_PARAM_STATEMENT_TOKEN, PARAM_TOKEN, "", 134},
- {NT_PARAM_STATEMENT2_TOKEN, EQUAL_TOKEN, "", 135},
- {NT_PARAM_STATEMENT2_TOKEN, LBRACKET_TOKEN, "", 136},
-
- {NT_OPT_ARRAY_SIZE_TOKEN, RBRACKET_TOKEN, "", 137},
- {NT_OPT_ARRAY_SIZE_TOKEN, INTEGER_TOKEN, "-1", 138},
-
- {NT_PARAM_SINGLE_INIT_TOKEN, EQUAL_TOKEN, "", 139},
- {NT_PARAM_MULTIPLE_INIT_TOKEN, EQUAL_TOKEN, "", 140},
-
- {NT_PARAM_MULT_INIT_LIST_TOKEN, STATE_TOKEN, "", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, PROGRAM_TOKEN, "", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, PLUS_TOKEN, "", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, MINUS_TOKEN, "", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, FLOAT_TOKEN, "-1", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, INTEGER_TOKEN, "-1", 141},
- {NT_PARAM_MULT_INIT_LIST_TOKEN, LBRACE_TOKEN, "", 141},
-
-
- {NT_PARAM_MULT_INIT_LIST2_TOKEN, COMMA_TOKEN, "", 142},
- {NT_PARAM_MULT_INIT_LIST2_TOKEN, RBRACE_TOKEN, "", 143},
-
-
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, STATE_TOKEN, "", 144},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, PROGRAM_TOKEN, "", 145},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, PLUS_TOKEN, "", 146},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, MINUS_TOKEN, "", 146},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, FLOAT_TOKEN, "-1", 146},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, INTEGER_TOKEN, "-1", 146},
- {NT_PARAM_SINGLE_ITEM_DECL_TOKEN, LBRACE_TOKEN, "", 146},
-
-
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, STATE_TOKEN, "", 147},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, PROGRAM_TOKEN, "", 148},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, LBRACE_TOKEN, "", 149},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, FLOAT_TOKEN, "-1", 149},
- {NT_PARAM_SINGLE_ITEM_USE_TOKEN, INTEGER_TOKEN, "-1", 149},
-
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, STATE_TOKEN, "", 150},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, PROGRAM_TOKEN, "", 151},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, PLUS_TOKEN, "", 152},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, MINUS_TOKEN, "", 152},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, FLOAT_TOKEN, "-1", 152},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, INTEGER_TOKEN, "-1", 152},
- {NT_PARAM_MULTIPLE_ITEM_TOKEN, LBRACE_TOKEN, "", 152},
-
- {NT_STATE_MULTIPLE_ITEM_TOKEN, STATE_TOKEN, "", 153},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "material", 154},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "light", 155},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "lightmodel", 156},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "lightprod", 157},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "texgen", 158},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "fog", 159},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "clip", 160},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "point", 161},
- {NT_STATE_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "matrix", 162},
-
- {NT_FOO_TOKEN, PERIOD_TOKEN, "", 163},
- {NT_FOO_TOKEN, COMMA_TOKEN, "", 316},
- {NT_FOO_TOKEN, RBRACE_TOKEN, "", 316},
- {NT_FOO2_TOKEN, ID_TOKEN, "inverse", 164},
- {NT_FOO2_TOKEN, ID_TOKEN, "transpose", 164},
- {NT_FOO2_TOKEN, ID_TOKEN, "invtrans", 164},
- {NT_FOO2_TOKEN, ID_TOKEN, "row", 165},
- {NT_FOO3_TOKEN, COMMA_TOKEN, "", 166},
- {NT_FOO3_TOKEN, RBRACE_TOKEN, "", 166},
- {NT_FOO3_TOKEN, PERIOD_TOKEN, "", 167},
-
- {NT_FOO35_TOKEN, INTEGER_TOKEN, "-1", 168},
- {NT_FOO4_TOKEN, RBRACKET_TOKEN, "", 169},
- {NT_FOO4_TOKEN, DOTDOT_TOKEN, "", 170},
-
- {NT_STATE_SINGLE_ITEM_TOKEN, STATE_TOKEN, "", 171},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "material", 172},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "light", 173},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "lightmodel", 174},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "lightprod", 175},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "texgen", 176},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "fog", 177},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "clip", 178},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "point", 179},
- {NT_STATE_SINGLE_ITEM2_TOKEN, ID_TOKEN, "matrix", 180},
-
-
- {NT_STATE_MATERIAL_ITEM_TOKEN, ID_TOKEN, "material", 181},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, ID_TOKEN, "ambient", 182},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, ID_TOKEN, "diffuse", 182},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, ID_TOKEN, "specular", 182},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, ID_TOKEN, "emission", 182},
- {NT_STATE_MATERIAL_ITEM2_TOKEN, ID_TOKEN, "shininess", 182},
-
- {NT_STATE_MATERIAL_ITEM2_TOKEN, PERIOD_TOKEN, "", 183},
- {NT_STATE_MAT_PROPERTY_TOKEN, ID_TOKEN, "ambient", 184},
- {NT_STATE_MAT_PROPERTY_TOKEN, ID_TOKEN, "diffuse", 185},
- {NT_STATE_MAT_PROPERTY_TOKEN, ID_TOKEN, "specular", 186},
- {NT_STATE_MAT_PROPERTY_TOKEN, ID_TOKEN, "emission", 187},
- {NT_STATE_MAT_PROPERTY_TOKEN, ID_TOKEN, "shininess", 188},
-
-
- {NT_STATE_LIGHT_ITEM_TOKEN, ID_TOKEN, "light", 189},
- {NT_STATE_LIGHT_ITEM2_TOKEN, RBRACKET_TOKEN, "", 190},
-
-
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "ambient", 191},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "diffuse", 192},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "specular", 193},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "position", 194},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "attenuation", 195},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "spot", 196},
- {NT_STATE_LIGHT_PROPERTY_TOKEN, ID_TOKEN, "half", 197},
-
- {NT_STATE_SPOT_PROPERTY_TOKEN, ID_TOKEN, "direction", 198},
- {NT_STATE_LIGHT_MODEL_ITEM_TOKEN, ID_TOKEN, "lightmodel", 199},
-
-
- {NT_STATE_LMOD_PROPERTY_TOKEN, PERIOD_TOKEN, "", 200},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, ID_TOKEN, "ambient", 201},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, ID_TOKEN, "scenecolor", 202},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, ID_TOKEN, "front", 203},
- {NT_STATE_LMOD_PROPERTY2_TOKEN, ID_TOKEN, "back", 203},
-
-
- {NT_STATE_LIGHT_PROD_ITEM_TOKEN, ID_TOKEN, "lightprod", 204},
- {NT_STATE_LIGHT_PROD_ITEM15_TOKEN, RBRACKET_TOKEN, "", 205},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, ID_TOKEN, "ambient", 206},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, ID_TOKEN, "diffuse", 206},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, ID_TOKEN, "specular", 206},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, ID_TOKEN, "front", 207},
- {NT_STATE_LIGHT_PROD_ITEM2_TOKEN, ID_TOKEN, "back", 207},
-
- {NT_STATE_LPROD_PROPERTY_TOKEN, ID_TOKEN, "ambient", 208},
- {NT_STATE_LPROD_PROPERTY_TOKEN, ID_TOKEN, "diffuse", 209},
- {NT_STATE_LPROD_PROPERTY_TOKEN, ID_TOKEN, "specular", 210},
-
- {NT_STATE_LIGHT_NUMBER_TOKEN, INTEGER_TOKEN, "-1", 211},
- {NT_STATE_TEX_GEN_ITEM_TOKEN, ID_TOKEN, "texgen", 212},
- {NT_STATE_TEX_GEN_ITEM2_TOKEN, PERIOD_TOKEN, "", 213},
- {NT_STATE_TEX_GEN_TYPE_TOKEN, ID_TOKEN, "eye", 214},
- {NT_STATE_TEX_GEN_TYPE_TOKEN, ID_TOKEN, "object", 215},
-
-
- {NT_STATE_TEX_GEN_COORD_TOKEN, ID_TOKEN, "s", 216},
- {NT_STATE_TEX_GEN_COORD_TOKEN, ID_TOKEN, "t", 217},
- {NT_STATE_TEX_GEN_COORD_TOKEN, ID_TOKEN, "r", 218},
- {NT_STATE_TEX_GEN_COORD_TOKEN, ID_TOKEN, "q", 219},
-
- {NT_STATE_FOG_ITEM_TOKEN, ID_TOKEN, "fog", 220},
-
- {NT_STATE_FOG_PROPERTY_TOKEN, ID_TOKEN, "color", 221},
- {NT_STATE_FOG_PROPERTY_TOKEN, ID_TOKEN, "params", 222},
-
- {NT_STATE_CLIP_PLANE_ITEM_TOKEN, ID_TOKEN, "clip", 223},
- {NT_STATE_CLIP_PLANE_ITEM2_TOKEN, RBRACKET_TOKEN, "", 224},
- {NT_STATE_CLIP_PLANE_NUM_TOKEN, INTEGER_TOKEN, "-1", 225},
- {NT_STATE_POINT_ITEM_TOKEN, ID_TOKEN, "point", 226},
- {NT_STATE_POINT_PROPERTY_TOKEN, ID_TOKEN, "size", 227},
- {NT_STATE_POINT_PROPERTY_TOKEN, ID_TOKEN, "attenuation", 228},
-
-
- {NT_STATE_MATRIX_ROW_TOKEN, ID_TOKEN, "matrix", 229},
- {NT_STATE_MATRIX_ROW15_TOKEN, PERIOD_TOKEN, "", 230},
- {NT_STATE_MATRIX_ROW2_TOKEN, ID_TOKEN, "row", 231},
- {NT_STATE_MATRIX_ROW2_TOKEN, ID_TOKEN, "inverse", 232},
- {NT_STATE_MATRIX_ROW2_TOKEN, ID_TOKEN, "transpose", 232},
- {NT_STATE_MATRIX_ROW2_TOKEN, ID_TOKEN, "invtrans", 232},
- {NT_STATE_MATRIX_ROW3_TOKEN, LBRACKET_TOKEN, "", 233},
-
- {NT_STATE_MAT_MODIFIER_TOKEN, ID_TOKEN, "inverse", 234},
- {NT_STATE_MAT_MODIFIER_TOKEN, ID_TOKEN, "transpose", 235},
- {NT_STATE_MAT_MODIFIER_TOKEN, ID_TOKEN, "invtrans", 236},
- {NT_STATE_MATRIX_ROW_NUM_TOKEN, INTEGER_TOKEN, "-1", 237},
-
-
- {NT_STATE_MATRIX_NAME_TOKEN, ID_TOKEN, "modelview", 238},
- {NT_STATE_MATRIX_NAME_TOKEN, ID_TOKEN, "projection", 239},
- {NT_STATE_MATRIX_NAME_TOKEN, ID_TOKEN, "mvp", 240},
- {NT_STATE_MATRIX_NAME_TOKEN, ID_TOKEN, "texture", 241},
- {NT_STATE_MATRIX_NAME_TOKEN, ID_TOKEN, "palette", 242},
- {NT_STATE_MATRIX_NAME_TOKEN, PROGRAM_TOKEN, "", 243},
-
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN, PERIOD_TOKEN, "", 244},
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN, COMMA_TOKEN, "", 244},
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN, RBRACE_TOKEN, "", 244},
- {NT_STATE_OPT_MOD_MAT_NUM_TOKEN, LBRACKET_TOKEN, "", 245},
-
- {NT_STATE_MOD_MAT_NUM_TOKEN, INTEGER_TOKEN, "-1", 246},
- {NT_STATE_PALETTE_MAT_NUM_TOKEN, INTEGER_TOKEN, "-1", 247},
- {NT_STATE_PROGRAM_MAT_NUM_TOKEN, INTEGER_TOKEN, "-1", 248},
-
- {NT_PROGRAM_SINGLE_ITEM_TOKEN, PROGRAM_TOKEN, "", 249},
- {NT_PROGRAM_SINGLE_ITEM2_TOKEN, ID_TOKEN, "env", 250},
- {NT_PROGRAM_SINGLE_ITEM2_TOKEN, ID_TOKEN, "local", 251},
-
-
- {NT_PROGRAM_MULTIPLE_ITEM_TOKEN, PROGRAM_TOKEN, "", 252},
- {NT_PROGRAM_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "env", 253},
- {NT_PROGRAM_MULTIPLE_ITEM2_TOKEN, ID_TOKEN, "local", 254},
- {NT_PROG_ENV_PARAMS_TOKEN, ID_TOKEN, "env", 255},
- {NT_PROG_ENV_PARAM_NUMS_TOKEN, INTEGER_TOKEN, "-1", 256},
- {NT_PROG_ENV_PARAM_NUMS2_TOKEN, DOTDOT_TOKEN, "", 257},
- {NT_PROG_ENV_PARAM_NUMS2_TOKEN, RBRACKET_TOKEN, "", 258},
- {NT_PROG_ENV_PARAM_TOKEN, ID_TOKEN, "env", 259},
-
- {NT_PROG_LOCAL_PARAMS_TOKEN, ID_TOKEN, "local", 260},
- {NT_PROG_LOCAL_PARAM_NUMS_TOKEN, INTEGER_TOKEN, "-1", 261},
- {NT_PROG_LOCAL_PARAM_NUMS2_TOKEN, DOTDOT_TOKEN, "", 262},
- {NT_PROG_LOCAL_PARAM_NUMS2_TOKEN, RBRACKET_TOKEN, "", 263},
- {NT_PROG_LOCAL_PARAM_TOKEN, ID_TOKEN, "local", 264},
- {NT_PROG_ENV_PARAM_NUM_TOKEN, INTEGER_TOKEN, "-1", 265},
- {NT_PROG_LOCAL_PARAM_NUM_TOKEN, INTEGER_TOKEN, "-1", 266},
- {NT_PARAM_CONST_DECL_TOKEN, PLUS_TOKEN, "", 267},
- {NT_PARAM_CONST_DECL_TOKEN, MINUS_TOKEN, "", 267},
- {NT_PARAM_CONST_DECL_TOKEN, FLOAT_TOKEN, "-1", 267},
- {NT_PARAM_CONST_DECL_TOKEN, INTEGER_TOKEN, "-1", 267},
- {NT_PARAM_CONST_DECL_TOKEN, LBRACE_TOKEN, "", 268},
-
- {NT_PARAM_CONST_USE_TOKEN, FLOAT_TOKEN, "-1", 269},
- {NT_PARAM_CONST_USE_TOKEN, INTEGER_TOKEN, "-1", 269},
- {NT_PARAM_CONST_USE_TOKEN, LBRACE_TOKEN, "", 270},
-
-
- {NT_PARAM_CONST_SCALAR_DECL_TOKEN, PLUS_TOKEN, "", 271},
- {NT_PARAM_CONST_SCALAR_DECL_TOKEN, MINUS_TOKEN, "", 271},
- {NT_PARAM_CONST_SCALAR_DECL_TOKEN, FLOAT_TOKEN, "-1", 271},
- {NT_PARAM_CONST_SCALAR_DECL_TOKEN, INTEGER_TOKEN, "-1", 271},
-
- {NT_PARAM_CONST_SCALAR_USE_TOKEN, FLOAT_TOKEN, "-1", 272},
- {NT_PARAM_CONST_SCALAR_USE_TOKEN, INTEGER_TOKEN, "-1", 272},
- {NT_PARAM_CONST_VECTOR_TOKEN, LBRACE_TOKEN, "", 273},
- {NT_PARAM_CONST_VECTOR2_TOKEN, RBRACE_TOKEN, "", 274},
- {NT_PARAM_CONST_VECTOR2_TOKEN, COMMA_TOKEN, "", 275},
- {NT_PARAM_CONST_VECTOR3_TOKEN, RBRACE_TOKEN, "", 276},
- {NT_PARAM_CONST_VECTOR3_TOKEN, COMMA_TOKEN, "", 277},
- {NT_PARAM_CONST_VECTOR4_TOKEN, RBRACE_TOKEN, "", 278},
- {NT_PARAM_CONST_VECTOR4_TOKEN, COMMA_TOKEN, "", 279},
-
- {NT_SIGNED_FLOAT_CONSTANT_TOKEN, PLUS_TOKEN, "", 280},
- {NT_SIGNED_FLOAT_CONSTANT_TOKEN, MINUS_TOKEN, "", 280},
- {NT_SIGNED_FLOAT_CONSTANT_TOKEN, FLOAT_TOKEN, "-1", 280},
- {NT_SIGNED_FLOAT_CONSTANT_TOKEN, INTEGER_TOKEN, "-1", 280},
-
- {NT_OPTIONAL_SIGN_TOKEN, FLOAT_TOKEN, "-1", 281},
- {NT_OPTIONAL_SIGN_TOKEN, INTEGER_TOKEN, "0", 281},
- {NT_OPTIONAL_SIGN_TOKEN, INTEGER_TOKEN, "1", 281},
- {NT_OPTIONAL_SIGN_TOKEN, INTEGER_TOKEN, "-1", 281},
- {NT_OPTIONAL_SIGN_TOKEN, ID_TOKEN, "-1", 281},
- {NT_OPTIONAL_SIGN_TOKEN, STATE_TOKEN, "", 281},
- {NT_OPTIONAL_SIGN_TOKEN, PROGRAM_TOKEN, "", 281},
- {NT_OPTIONAL_SIGN_TOKEN, VERTEX_TOKEN, "", 281},
- {NT_OPTIONAL_SIGN_TOKEN, LBRACE_TOKEN, "", 281},
-
-
- {NT_OPTIONAL_SIGN_TOKEN, MINUS_TOKEN, "", 282},
- {NT_OPTIONAL_SIGN_TOKEN, PLUS_TOKEN, "", 283},
-
- {NT_TEMP_STATEMENT_TOKEN, TEMP_TOKEN, "", 284},
- {NT_ADDRESS_STATEMENT_TOKEN, ADDRESS_TOKEN, "", 285},
-
- /* Special case 286-7 */
-
- {NT_OUTPUT_STATEMENT_TOKEN, OUTPUT_TOKEN, "", 288},
- {NT_RESULT_BINDING_TOKEN, RESULT_TOKEN, "", 289},
- {NT_RESULT_BINDING2_TOKEN, ID_TOKEN, "position", 290},
- {NT_RESULT_BINDING2_TOKEN, ID_TOKEN, "fogcoord", 291},
- {NT_RESULT_BINDING2_TOKEN, ID_TOKEN, "pointsize", 292},
- {NT_RESULT_BINDING2_TOKEN, ID_TOKEN, "color", 293},
- {NT_RESULT_BINDING2_TOKEN, ID_TOKEN, "texcoord", 294},
-
- {NT_RESULT_COL_BINDING_TOKEN, ID_TOKEN, "color", 295},
-
- /* Special case 296-7 */
-
- {NT_RESULT_COL_BINDING3_TOKEN, ID_TOKEN, "front", 298},
- {NT_RESULT_COL_BINDING3_TOKEN, ID_TOKEN, "back", 299},
-
- /* Special case 300-301 */
-
- {NT_RESULT_COL_BINDING5_TOKEN, ID_TOKEN, "primary", 302},
- {NT_RESULT_COL_BINDING5_TOKEN, ID_TOKEN, "secondary", 303},
- {NT_OPT_FACE_TYPE2_TOKEN, ID_TOKEN, "front", 304},
- {NT_OPT_FACE_TYPE2_TOKEN, ID_TOKEN, "back", 305},
-
- /* Special case 306-7 */
-
- {NT_OPT_COLOR_TYPE2_TOKEN, ID_TOKEN, "primary", 308},
- {NT_OPT_COLOR_TYPE2_TOKEN, ID_TOKEN, "secondary", 309},
-
- {NT_OPT_TEX_COORD_NUM_TOKEN, PERIOD_TOKEN, "", 310},
- {NT_OPT_TEX_COORD_NUM_TOKEN, SEMICOLON_TOKEN, "", 310},
- {NT_OPT_TEX_COORD_NUM_TOKEN, COMMA_TOKEN, "", 310},
- {NT_OPT_TEX_COORD_NUM_TOKEN, RBRACE_TOKEN, "", 310},
- {NT_OPT_TEX_COORD_NUM_TOKEN, LBRACKET_TOKEN, "", 311},
-
- {NT_TEX_COORD_NUM_TOKEN, INTEGER_TOKEN, "-1", 312},
-
- /* Special case for 313 to get aliasing correct */
-
- {NT_ESTABLISH_NAME_TOKEN, ID_TOKEN, "-1", 314},
- {NT_ESTABLISHED_NAME_TOKEN, ID_TOKEN, "-1", 315},
-
- /* Special case for 318-9 */
-};
-
-static GLint nprods = sizeof(ptab) / sizeof(prod_table);
-static GLint nlas = sizeof(latab) / sizeof(look_ahead_table);
-
-/**
- * This is a gigantic FSA to recognize the keywords put forth in the
- * GL_ARB_vertex_program spec.
- *
- * All other tokens are deemed 'identifiers', and shoved into the
- * identifier symbol table (as opposed to the GLint and GLfloat symbol tables)
- *
- * \param s The parse state
- * \param token The next token seen is returned in this value
- * \param token_attr The token attribute for the next token is returned here. This
- * is the index into the approprate symbol table if token is INTEGER_TOKEN,
- * FLOAT_TOKEN, or ID_TOKEN
- *
- * \return ARB_VP_ERROR on lex error, ARB_VP_SUCESS on sucess
- */
-static GLint
-get_next_token(parse_state * s, GLint * token, GLint * token_attr)
-{
- GLubyte curr;
-
- while (s->start_pos < s->len) {
- curr = s->str[s->curr_pos];
-
- switch (s->curr_state) {
- /* Default state */
- case STATE_BASE:
- if (IS_WHITESPACE(curr)) {
- s->start_pos++;
- s->curr_pos++;
- }
- else {
- if (IS_IDCHAR(curr)) {
- switch (curr) {
- case 'A':
- ADV_TO_STATE(STATE_A);
- break;
-
- case 'D':
- ADV_TO_STATE(STATE_D);
- break;
-
- case 'E':
- ADV_TO_STATE(STATE_E);
- break;
-
- case 'F':
- ADV_TO_STATE(STATE_F);
- break;
-
- case 'L':
- ADV_TO_STATE(STATE_L);
- break;
-
- case 'M':
- ADV_TO_STATE(STATE_M);
- break;
-
- case 'O':
- ADV_TO_STATE(STATE_O);
- break;
-
- case 'P':
- ADV_TO_STATE(STATE_P);
- break;
-
- case 'R':
- ADV_TO_STATE(STATE_R);
- break;
-
- case 'S':
- ADV_TO_STATE(STATE_S);
- break;
-
- case 'T':
- ADV_TO_STATE(STATE_T);
- break;
-
- case 'X':
- ADV_TO_STATE(STATE_X);
- break;
-
- case 'p':
- ADV_TO_STATE(STATE_LC_P);
- break;
-
- case 'r':
- ADV_TO_STATE(STATE_LC_R);
- break;
-
- case 's':
- ADV_TO_STATE(STATE_LC_S);
- break;
-
- case 'v':
- ADV_TO_STATE(STATE_LC_V);
- break;
-
- default:
- s->curr_state = 1;
- s->start_pos = s->curr_pos;
- s->curr_pos++;
- }
- }
- else if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N4);
- }
- else {
- switch (curr) {
- case '#':
- ADV_TO_STATE(STATE_COMMENT);
- break;
- case ';':
- ADV_AND_FINISH(SEMICOLON_TOKEN);
- break;
- case ',':
- ADV_AND_FINISH(COMMA_TOKEN);
- break;
- case '+':
- ADV_AND_FINISH(PLUS_TOKEN);
- break;
- case '-':
- ADV_AND_FINISH(MINUS_TOKEN);
- break;
- case '[':
- ADV_AND_FINISH(LBRACKET_TOKEN);
- break;
- case ']':
- ADV_AND_FINISH(RBRACKET_TOKEN);
- break;
- case '{':
- ADV_AND_FINISH(LBRACE_TOKEN);
- break;
- case '}':
- ADV_AND_FINISH(RBRACE_TOKEN);
- break;
- case '=':
- ADV_AND_FINISH(EQUAL_TOKEN);
- break;
-
- case '.':
- ADV_TO_STATE(STATE_N1);
- break;
-
- default:
- return ARB_VP_ERROR;
- break;
- }
- }
- }
- break;
-
-
- /* Main identifier state */
- case STATE_IDENT:
- if (IS_CD(curr)) {
- s->curr_pos++;
- }
- else {
- *token = ID_TOKEN;
- *token_attr =
- id_table_add(&s->idents, s->str, s->start_pos, s->curr_pos);
-
- s->curr_state = 0;
- s->start_pos = s->curr_pos;
- return ARB_VP_SUCESS;
- }
- break;
-
- /* -----------------------------------------------------
- * Beginning of the A* keywords
- */
- case STATE_A:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'B':
- ADV_TO_STATE(STATE_AB);
- break;
- case 'D':
- ADV_TO_STATE(STATE_AD);
- break;
- case 'L':
- ADV_TO_STATE(STATE_AL);
- break;
- case 'R':
- ADV_TO_STATE(STATE_AR);
- break;
- case 'T':
- ADV_TO_STATE(STATE_AT);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_AB:
- ADV_OR_FALLBACK('S', STATE_ABS);
- break;
-
- case STATE_ABS:
- FINISH_OR_FALLBACK(ABS_TOKEN);
- break;
-
- case STATE_AD:
- ADV_OR_FALLBACK('D', STATE_ADD);
- break;
-
- case STATE_ADD:
- if (curr == 'R') {
- ADV_TO_STATE(STATE_ADDR);
- }
- else if (IS_CD(curr)) {
- ADV_TO_STATE(STATE_IDENT);
- }
- else {
- FINISH(ADD_TOKEN);
- }
- break;
-
- case STATE_ADDR:
- ADV_OR_FALLBACK('E', STATE_ADDRE);
- break;
-
- case STATE_ADDRE:
- ADV_OR_FALLBACK('S', STATE_ADDRES);
- break;
-
- case STATE_ADDRES:
- ADV_OR_FALLBACK('S', STATE_ADDRESS);
- break;
-
- case STATE_ADDRESS:
- FINISH_OR_FALLBACK(ADDRESS_TOKEN);
- break;
-
- case STATE_AL:
- ADV_OR_FALLBACK('I', STATE_ALI);
- break;
-
- case STATE_ALI:
- ADV_OR_FALLBACK('A', STATE_ALIA);
- break;
-
- case STATE_ALIA:
- ADV_OR_FALLBACK('S', STATE_ALIAS);
- break;
-
- case STATE_ALIAS:
- FINISH_OR_FALLBACK(ALIAS_TOKEN);
- break;
-
- case STATE_AR:
- ADV_OR_FALLBACK('L', STATE_ARL);
- break;
-
- case STATE_ARL:
- FINISH_OR_FALLBACK(ARL_TOKEN);
- break;
-
- case STATE_AT:
- ADV_OR_FALLBACK('T', STATE_ATT);
- break;
-
- case STATE_ATT:
- ADV_OR_FALLBACK('R', STATE_ATTR);
- break;
-
- case STATE_ATTR:
- ADV_OR_FALLBACK('I', STATE_ATTRI);
- break;
-
- case STATE_ATTRI:
- ADV_OR_FALLBACK('B', STATE_ATTRIB);
- break;
-
- case STATE_ATTRIB:
- FINISH_OR_FALLBACK(ATTRIB_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the D* keywords
- */
- case STATE_D:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'P':
- ADV_TO_STATE(STATE_DP);
- break;
- case 'S':
- ADV_TO_STATE(STATE_DS);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_DP:
- if (IS_CD(curr)) {
- switch (curr) {
- case '3':
- ADV_TO_STATE(STATE_DP3);
- break;
- case '4':
- ADV_TO_STATE(STATE_DP4);
- break;
- case 'H':
- ADV_TO_STATE(STATE_DPH);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_DP3:
- FINISH_OR_FALLBACK(DP3_TOKEN);
- break;
-
- case STATE_DP4:
- FINISH_OR_FALLBACK(DP4_TOKEN);
- break;
-
- case STATE_DPH:
- FINISH_OR_FALLBACK(DPH_TOKEN);
- break;
-
- case STATE_DS:
- ADV_OR_FALLBACK('T', STATE_DST);
- break;
-
- case STATE_DST:
- FINISH_OR_FALLBACK(DST_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the E* keywords
- */
- case STATE_E:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'N':
- ADV_TO_STATE(STATE_EN);
- break;
- case 'X':
- ADV_TO_STATE(STATE_EX);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_EN:
- ADV_OR_FALLBACK('D', STATE_END);
- break;
-
- case STATE_END:
- FINISH_OR_FALLBACK(END_TOKEN);
- break;
-
- case STATE_EX:
- if (IS_CD(curr)) {
- switch (curr) {
- case '2':
- ADV_TO_STATE(STATE_EX2);
- break;
- case 'P':
- ADV_TO_STATE(STATE_EXP);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_EX2:
- FINISH_OR_FALLBACK(EX2_TOKEN);
- break;
-
- case STATE_EXP:
- FINISH_OR_FALLBACK(EXP_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the F* keywords
- */
- case STATE_F:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'L':
- ADV_TO_STATE(STATE_FL);
- break;
- case 'R':
- ADV_TO_STATE(STATE_FR);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_FL:
- ADV_OR_FALLBACK('R', STATE_FLR);
- break;
-
- case STATE_FLR:
- FINISH_OR_FALLBACK(FLR_TOKEN);
- break;
-
- case STATE_FR:
- ADV_OR_FALLBACK('C', STATE_FRC);
- break;
-
- case STATE_FRC:
- FINISH_OR_FALLBACK(FRC_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the L* keywords
- */
- case STATE_L:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'G':
- ADV_TO_STATE(STATE_LG);
- break;
- case 'I':
- ADV_TO_STATE(STATE_LI);
- break;
- case 'O':
- ADV_TO_STATE(STATE_LO);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_LG:
- ADV_OR_FALLBACK('2', STATE_LG2);
- break;
-
- case STATE_LG2:
- FINISH_OR_FALLBACK(LG2_TOKEN);
- break;
-
- case STATE_LI:
- ADV_OR_FALLBACK('T', STATE_LIT);
- break;
-
- case STATE_LIT:
- FINISH_OR_FALLBACK(LIT_TOKEN);
- break;
-
- case STATE_LO:
- ADV_OR_FALLBACK('G', STATE_LOG);
- break;
-
- case STATE_LOG:
- FINISH_OR_FALLBACK(LOG_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the M* keywords
- */
- case STATE_M:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'A':
- ADV_TO_STATE(STATE_MA);
- break;
- case 'I':
- ADV_TO_STATE(STATE_MI);
- break;
- case 'O':
- ADV_TO_STATE(STATE_MO);
- break;
- case 'U':
- ADV_TO_STATE(STATE_MU);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_MA:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'D':
- ADV_TO_STATE(STATE_MAD);
- break;
- case 'X':
- ADV_TO_STATE(STATE_MAX);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_MAD:
- FINISH_OR_FALLBACK(MAD_TOKEN);
- break;
-
- case STATE_MAX:
- FINISH_OR_FALLBACK(MAX_TOKEN);
- break;
-
- case STATE_MI:
- ADV_OR_FALLBACK('N', STATE_MIN);
- break;
-
- case STATE_MIN:
- FINISH_OR_FALLBACK(MIN_TOKEN);
- break;
-
- case STATE_MO:
- ADV_OR_FALLBACK('V', STATE_MOV);
- break;
-
- case STATE_MOV:
- FINISH_OR_FALLBACK(MOV_TOKEN);
- break;
-
- case STATE_MU:
- ADV_OR_FALLBACK('L', STATE_MUL);
- break;
-
- case STATE_MUL:
- FINISH_OR_FALLBACK(MUL_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the O* keywords
- */
- case STATE_O:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'P':
- ADV_TO_STATE(STATE_OP);
- break;
- case 'U':
- ADV_TO_STATE(STATE_OU);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_OP:
- ADV_OR_FALLBACK('T', STATE_OPT);
- break;
-
- case STATE_OPT:
- ADV_OR_FALLBACK('I', STATE_OPTI);
- break;
-
- case STATE_OPTI:
- ADV_OR_FALLBACK('O', STATE_OPTIO);
- break;
-
- case STATE_OPTIO:
- ADV_OR_FALLBACK('N', STATE_OPTION);
- break;
-
- case STATE_OPTION:
- FINISH_OR_FALLBACK(OPTION_TOKEN);
- break;
-
- case STATE_OU:
- ADV_OR_FALLBACK('T', STATE_OUT);
- break;
-
- case STATE_OUT:
- ADV_OR_FALLBACK('P', STATE_OUTP);
- break;
-
- case STATE_OUTP:
- ADV_OR_FALLBACK('U', STATE_OUTPU);
- break;
-
- case STATE_OUTPU:
- ADV_OR_FALLBACK('T', STATE_OUTPUT);
- break;
-
- case STATE_OUTPUT:
- FINISH_OR_FALLBACK(OUTPUT_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the P* keywords
- */
- case STATE_P:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'A':
- ADV_TO_STATE(STATE_PA);
- break;
- case 'O':
- ADV_TO_STATE(STATE_PO);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_PA:
- ADV_OR_FALLBACK('R', STATE_PAR);
- break;
-
- case STATE_PAR:
- ADV_OR_FALLBACK('A', STATE_PARA);
- break;
-
- case STATE_PARA:
- ADV_OR_FALLBACK('M', STATE_PARAM);
- break;
-
- case STATE_PARAM:
- FINISH_OR_FALLBACK(PARAM_TOKEN);
- break;
-
- case STATE_PO:
- ADV_OR_FALLBACK('W', STATE_POW);
- break;
-
- case STATE_POW:
- FINISH_OR_FALLBACK(POW_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the R* keywords
- */
- case STATE_R:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'C':
- ADV_TO_STATE(STATE_RC);
- break;
- case 'S':
- ADV_TO_STATE(STATE_RS);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_RC:
- ADV_OR_FALLBACK('P', STATE_RCP);
- break;
-
- case STATE_RCP:
- FINISH_OR_FALLBACK(RCP_TOKEN);
- break;
-
- case STATE_RS:
- ADV_OR_FALLBACK('Q', STATE_RSQ);
- break;
-
- case STATE_RSQ:
- FINISH_OR_FALLBACK(RSQ_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the S* keywords
- */
- case STATE_S:
- if (IS_CD(curr)) {
- switch (curr) {
- case 'G':
- ADV_TO_STATE(STATE_SG);
- break;
- case 'L':
- ADV_TO_STATE(STATE_SL);
- break;
- case 'U':
- ADV_TO_STATE(STATE_SU);
- break;
- case 'W':
- ADV_TO_STATE(STATE_SW);
- break;
- default:
- ADV_TO_STATE(STATE_IDENT);
- break;
- }
- }
- else {
- s->curr_state = 1;
- }
- break;
-
- case STATE_SG:
- ADV_OR_FALLBACK('E', STATE_SGE);
- break;
-
- case STATE_SGE:
- FINISH_OR_FALLBACK(SGE_TOKEN);
- break;
-
- case STATE_SL:
- ADV_OR_FALLBACK('T', STATE_SLT);
- break;
-
- case STATE_SLT:
- FINISH_OR_FALLBACK(SLT_TOKEN);
- break;
-
- case STATE_SU:
- ADV_OR_FALLBACK('B', STATE_SUB);
- break;
-
- case STATE_SUB:
- FINISH_OR_FALLBACK(SUB_TOKEN);
- break;
-
- case STATE_SW:
- ADV_OR_FALLBACK('Z', STATE_SWZ);
- break;
-
- case STATE_SWZ:
- FINISH_OR_FALLBACK(SWZ_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the T* keywords
- */
- case STATE_T:
- ADV_OR_FALLBACK('E', STATE_TE);
- break;
-
- case STATE_TE:
- ADV_OR_FALLBACK('M', STATE_TEM);
- break;
-
- case STATE_TEM:
- ADV_OR_FALLBACK('P', STATE_TEMP);
- break;
-
- case STATE_TEMP:
- FINISH_OR_FALLBACK(TEMP_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the X* keywords
- */
- case STATE_X:
- ADV_OR_FALLBACK('P', STATE_XP);
- break;
-
- case STATE_XP:
- ADV_OR_FALLBACK('D', STATE_XPD);
- break;
-
- case STATE_XPD:
- FINISH_OR_FALLBACK(XPD_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the p* keywords
- */
- case STATE_LC_P:
- ADV_OR_FALLBACK('r', STATE_LC_PR);
- break;
-
- case STATE_LC_PR:
- ADV_OR_FALLBACK('o', STATE_LC_PRO);
- break;
-
- case STATE_LC_PRO:
- ADV_OR_FALLBACK('g', STATE_LC_PROG);
- break;
-
- case STATE_LC_PROG:
- ADV_OR_FALLBACK('r', STATE_LC_PROGR);
- break;
-
- case STATE_LC_PROGR:
- ADV_OR_FALLBACK('a', STATE_LC_PROGRA);
- break;
-
- case STATE_LC_PROGRA:
- ADV_OR_FALLBACK('m', STATE_LC_PROGRAM);
- break;
-
- case STATE_LC_PROGRAM:
- FINISH_OR_FALLBACK(PROGRAM_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the r* keywords
- */
- case STATE_LC_R:
- ADV_OR_FALLBACK('e', STATE_LC_RE);
- break;
-
- case STATE_LC_RE:
- ADV_OR_FALLBACK('s', STATE_LC_RES);
- break;
-
- case STATE_LC_RES:
- ADV_OR_FALLBACK('u', STATE_LC_RESU);
- break;
-
- case STATE_LC_RESU:
- ADV_OR_FALLBACK('l', STATE_LC_RESUL);
- break;
-
- case STATE_LC_RESUL:
- ADV_OR_FALLBACK('t', STATE_LC_RESULT);
- break;
-
- case STATE_LC_RESULT:
- FINISH_OR_FALLBACK(RESULT_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the s* keywords
- */
- case STATE_LC_S:
- ADV_OR_FALLBACK('t', STATE_LC_ST);
- break;
-
- case STATE_LC_ST:
- ADV_OR_FALLBACK('a', STATE_LC_STA);
- break;
-
- case STATE_LC_STA:
- ADV_OR_FALLBACK('t', STATE_LC_STAT);
- break;
-
- case STATE_LC_STAT:
- ADV_OR_FALLBACK('e', STATE_LC_STATE);
- break;
-
- case STATE_LC_STATE:
- FINISH_OR_FALLBACK(STATE_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the v* keywords
- */
- case STATE_LC_V:
- ADV_OR_FALLBACK('e', STATE_LC_VE);
- break;
-
- case STATE_LC_VE:
- ADV_OR_FALLBACK('r', STATE_LC_VER);
- break;
-
- case STATE_LC_VER:
- ADV_OR_FALLBACK('t', STATE_LC_VERT);
- break;
-
- case STATE_LC_VERT:
- ADV_OR_FALLBACK('e', STATE_LC_VERTE);
- break;
-
- case STATE_LC_VERTE:
- ADV_OR_FALLBACK('x', STATE_LC_VERTEX);
- break;
-
- case STATE_LC_VERTEX:
- FINISH_OR_FALLBACK(VERTEX_TOKEN);
- break;
-
- /* -----------------------------------------------------
- * Beginning of the number & comment FSAs
- */
- case STATE_N1:
- if (curr == '.') {
- ADV_TO_STATE(STATE_N2);
- }
- else if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N3);
- }
- else {
- /*ADV_AND_FINISH(PERIOD_TOKEN); */
- FINISH(PERIOD_TOKEN);
- }
- break;
-
- case STATE_N2:
-#if 1
- /*ADV_AND_FINISH(DOTDOT_TOKEN);*/
- FINISH(DOTDOT_TOKEN);
-#else
- FINISH(PERIOD_TOKEN);
-#endif
- break;
-
- case STATE_N3:
- if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N3);
- }
- else if ((curr == 'E') || (curr == 'e')) {
- ADV_TO_STATE(STATE_N5);
- }
- else if (curr == '.') {
- /* Blech! we have something like 1.. -> have to backup */
- s->curr_pos -= 1;
- *token_attr =
- int_table_add(&s->ints, s->str, s->start_pos, s->curr_pos);
- FINISH(INTEGER_TOKEN);
- }
- else {
- *token_attr =
- float_table_add(&s->floats, s->str, s->start_pos, s->curr_pos);
- /*ADV_AND_FINISH(FLOAT_TOKEN);*/
- FINISH(FLOAT_TOKEN);
- }
- break;
-
- case STATE_N4:
- if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N4);
- }
- else if ((curr == 'E') || (curr == 'e')) {
- ADV_TO_STATE(STATE_N5);
- }
- else if (curr == '.') {
- ADV_TO_STATE(STATE_N3);
- }
- else {
- *token_attr =
- int_table_add(&s->ints, s->str, s->start_pos, s->curr_pos);
- /*ADV_AND_FINISH(INTEGER_TOKEN);*/
- FINISH(INTEGER_TOKEN);
- }
- break;
-
- case STATE_N5:
- if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N6);
- }
- else if ((curr == '+') || (curr == '-')) {
- ADV_TO_STATE(STATE_N7)
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
-
- case STATE_N6:
- if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N6);
- }
- else {
- *token_attr =
- float_table_add(&s->floats, s->str, s->start_pos, s->curr_pos);
- /*ADV_AND_FINISH(FLOAT_TOKEN);*/
- FINISH(FLOAT_TOKEN);
- }
- break;
-
- case STATE_N7:
- if (IS_DIGIT(curr)) {
- ADV_TO_STATE(STATE_N6);
- }
- else {
- return ARB_VP_ERROR;
- }
-
- break;
-
- case STATE_COMMENT:
- if ((curr == '\n') || (curr == '\r')) {
- s->start_pos = s->curr_pos + 1;
- s->curr_pos++;
- s->curr_state = 0;
- }
- else {
- ADV_TO_STATE(STATE_COMMENT);
- }
- }
- }
-
- *token = EOF_TOKEN;
- return ARB_VP_SUCESS;
-}
-
-/**
- * This does the same as get_next_token(), but it does not advance the
- * position pointers (Err, rather it does, but then it resets them)
- *
- * \param s The parse state
- * \param token The next token seen is returned in this value
- * \param token_attr The token attribute for the next token is returned here. This
- * is the index into the approprate symbol table if token is INTEGER_TOKEN,
- * FLOAT_TOKEN, or ID_TOKEN
- * \param how_many How many tokens to peek ahead
- *
- * \return ARB_VP_ERROR on lex error, ARB_VP_SUCESS on sucess
- */
-static GLint
-peek_next_token(parse_state * s, GLint * token, GLint * token_attr,
- GLint how_many)
-{
- GLint tmp_state = s->curr_state;
- GLint tmp_sp = s->start_pos;
- GLint tmp_cp = s->curr_pos;
- GLint a, retval;
-
- for (a = 0; a < how_many; a++) {
- retval = get_next_token(s, token, token_attr);
-
- if (retval == ARB_VP_ERROR)
- return retval;
- }
-
- s->curr_state = tmp_state;
- s->start_pos = tmp_sp;
- s->curr_pos = tmp_cp;
-
- return retval;
-}
-
-/**
- * Print out the value of a token
- */
-static void
-debug_token(parse_state * state, GLint t, GLint ta)
-{
- switch (t) {
- case EOF_TOKEN:
- printf("EOF\n");
- break;
- case ID_TOKEN:
- printf("|%s| ", state->idents.data[ta]);
- break;
- case INTEGER_TOKEN:
- printf("|%d| ", state->ints.data[ta]);
- break;
- case FLOAT_TOKEN:
- printf("|%f| ", state->floats.data[ta]);
- break;
-
- case ABS_TOKEN:
- printf("ABS ");
- break;
- case ADD_TOKEN:
- printf("ADD ");
- break;
- case ADDRESS_TOKEN:
- printf("ADDRESS ");
- break;
- case ALIAS_TOKEN:
- printf("ALIAS ");
- break;
- case ARL_TOKEN:
- printf("ARL ");
- break;
- case ATTRIB_TOKEN:
- printf("ATTRIB ");
- break;
-
- case DP3_TOKEN:
- printf("DP3 ");
- break;
- case DP4_TOKEN:
- printf("DP4 ");
- break;
- case DPH_TOKEN:
- printf("DPH ");
- break;
- case DST_TOKEN:
- printf("DST ");
- break;
-
- case END_TOKEN:
- printf("END ");
- break;
- case EX2_TOKEN:
- printf("EX2 ");
- break;
- case EXP_TOKEN:
- printf("EXP ");
- break;
-
- case FLR_TOKEN:
- printf("FLR ");
- break;
- case FRC_TOKEN:
- printf("FRC ");
- break;
-
- case LG2_TOKEN:
- printf("LG2 ");
- break;
- case LIT_TOKEN:
- printf("LIT ");
- break;
- case LOG_TOKEN:
- printf("LOG ");
- break;
-
- case MAD_TOKEN:
- printf("MAD ");
- break;
- case MAX_TOKEN:
- printf("MAX ");
- break;
- case MIN_TOKEN:
- printf("MIN ");
- break;
- case MOV_TOKEN:
- printf("MOV ");
- break;
- case MUL_TOKEN:
- printf("MUL ");
- break;
-
- case OPTION_TOKEN:
- printf("OPTION ");
- break;
- case OUTPUT_TOKEN:
- printf("OUTPUT ");
- break;
-
- case PARAM_TOKEN:
- printf("PARAM ");
- break;
- case POW_TOKEN:
- printf("POW ");
- break;
-
- case RCP_TOKEN:
- printf("RCP ");
- break;
- case RSQ_TOKEN:
- printf("RSQ ");
- break;
-
- case SGE_TOKEN:
- printf("SGE ");
- break;
- case SLT_TOKEN:
- printf("SLT ");
- break;
- case SUB_TOKEN:
- printf("SUB ");
- break;
- case SWZ_TOKEN:
- printf("SWZ ");
- break;
-
- case TEMP_TOKEN:
- printf("TEMP ");
- break;
-
- case XPD_TOKEN:
- printf("XPD ");
- break;
-
- case SEMICOLON_TOKEN:
- printf("; ");
- break;
- case COMMA_TOKEN:
- printf(", ");
- break;
- case PLUS_TOKEN:
- printf("+ ");
- break;
- case MINUS_TOKEN:
- printf("- ");
- break;
- case PERIOD_TOKEN:
- printf(". ");
- break;
- case DOTDOT_TOKEN:
- printf(".. ");
- break;
- case LBRACKET_TOKEN:
- printf("[ ");
- break;
- case RBRACKET_TOKEN:
- printf("] ");
- break;
- case LBRACE_TOKEN:
- printf("{ ");
- break;
- case RBRACE_TOKEN:
- printf("} ");
- break;
- case EQUAL_TOKEN:
- printf("= ");
- break;
-
- case PROGRAM_TOKEN:
- printf("program ");
- break;
- case RESULT_TOKEN:
- printf("result ");
- break;
- case STATE_TOKEN:
- printf("state ");
- break;
- case VERTEX_TOKEN:
- printf("vertex ");
- break;
- default:
- printf("Unknown token type %d\n", t);
- }
-}
-
-/**
- * Setup the state used by the parser / lex
- *
- * \param str The program string, with the !!ARBvp1.0 token stripped off
- * \param len The lenght of the given string
- *
- * \return A parse_state struct to keep track of all the things we need while parsing
- */
-static parse_state *
-parse_state_init(GLubyte * str, GLint len)
-{
- parse_state *s = (parse_state *) _mesa_malloc(sizeof(parse_state));
-
- s->str = _mesa_strdup((char *) str);
- s->len = len;
- s->curr_pos = 0;
- s->start_pos = 0;
-
- s->curr_state = 0;
-
- s->idents.len = 0;
- s->idents.data = NULL;
-
- s->ints.len = 0;
- s->ints.data = NULL;
-
- s->floats.len = 0;
- s->floats.data = NULL;
- printf("%s\n", s->str);
-
- s->binds.len = 0;
- s->binds.type = NULL;
- s->binds.offset = NULL;
- s->binds.row = NULL;
- s->binds.consts = NULL;
-
- s->arrays.len = 0;
- s->arrays.num_elements = NULL;
- s->arrays.data = NULL;
-
- s->stack_head = NULL;
- s->stack_free_list = NULL;
-
- s->pt_head = NULL;
-
- return s;
-}
-
-/**
- * This frees all the things we hold while parsing.
- *
- * \param s The struct created by parse_state_init()
- */
-static void
-parse_state_cleanup(parse_state * s)
-{
- GLint a;
- token_list *tl, *next;
-
- /* Free our copy of the string [Mesa has its own] */
- _mesa_free(s->str);
-
- /* Free all the tables ident, int, float, bind, mat */
- _mesa_free(s->idents.type);
- _mesa_free(s->idents.attr);
- for (a = 0; a < s->idents.len; a++)
- _mesa_free(s->idents.data[a]);
-
- _mesa_free(s->ints.data);
- _mesa_free(s->floats.data);
-
- _mesa_free(s->arrays.num_elements);
- for (a = 0; a < s->arrays.len; a++)
- _mesa_free(s->arrays.data[a]);
-
- _mesa_free(s->binds.type);
- _mesa_free(s->binds.offset);
- _mesa_free(s->binds.row);
- _mesa_free(s->binds.num_rows);
- _mesa_free(s->binds.reg_num);
-#if 0
- for (a = 0; a < s->binds.len; a++) {
- printf("6: %d/%d\n", a, s->binds.len - 1);
- _mesa_free(s->binds.consts[a]);
- }
-#endif
-
- /* Free the stack */
- tl = s->stack_head;
- while (tl) {
- next = tl->next;
- free(tl);
- tl = next;
- }
- tl = s->stack_free_list;
- while (tl) {
- next = tl->next;
- free(tl);
- tl = next;
- }
- printf("freed stack free list\n");
-
-#if 0
- /* Free the parse tree */
- parse_tree_free_children(s->pt_head);
- printf("freed parse_tree\n");
-#endif
- free(s);
- printf("freed state\n");
-}
-
-/**
- * Alloc a new node for a parse tree.
- *
- * \return An empty node to fill and stick into the parse tree
- */
-static parse_tree_node *
-parse_tree_node_init(void)
-{
- GLint a;
- parse_tree_node *pt;
-
- pt = (parse_tree_node *) _mesa_malloc(sizeof(parse_tree_node));
- pt->tok = -1;
- pt->tok_attr = -1;
- pt->is_terminal = 0;
- pt->prod_applied = -1;
-
- for (a = 0; a < 4; a++)
- pt->children[a] = NULL;
-
- return pt;
-}
-
-/**
- * We maintain a stack of nonterminals used for predictive parsing. To keep
- * from thrashing malloc/free, we keep a free list of token_list structs
- * to be used for this stack. This function is called to refill the free
- * list, when we try to grab a new token_list struct, and find that there are none
- * available
- *
- * \param s The parse state
- */
-static void
-_fill_free_list(parse_state * s)
-{
- GLint a;
- token_list *tl;
-
- if (s->stack_free_list)
- return;
-
- for (a = 0; a < 20; a++) {
- tl = (token_list *) _mesa_malloc(sizeof(token_list));
-
- tl->next = s->stack_free_list;
- s->stack_free_list = tl;
- }
-}
-
-/**
- * Peek at the head of the nonterminal stack,
- *
- * \param s The parse state
- * \param token Return for the nonterminal token on the top of the stack
- * \param token_attr Return for the the token attribute on the top of the stack
- *
- * \return ARB_VP_ERROR on an empty stack [not necessarily a bad thing], else ARB_VP_SUCESS
- */
-static GLint
-_stack_peek(parse_state * s, GLint * token, GLint * token_attr)
-{
- if (!s->stack_head) {
- fprintf(stderr, "ACK! Empty stack on peek!\n");
- return ARB_VP_ERROR;
- }
-
- *token = s->stack_head->tok;
- *token_attr = s->stack_head->tok_attr;
-
- return ARB_VP_SUCESS;
-}
-
-/**
- * Remove the token at the head of the nonterminal stack
- * \param s The parse state
- * \param token Return for the nonterminal token on the top of the stack
- * \param token_attr Return for the the token attribute on the top of the stack
- * \param ptn Return for a pointer to the place in the parse tree where
- * the token lives
- *
- * \return ARB_VP_ERROR on an empty stack [not necessarily a bad thing], else ARB_VP_SUCESS
- */
-static GLint
-_stack_pop(parse_state * s, GLint * token, GLint * token_attr,
- parse_tree_node ** ptn)
-{
- token_list *tl;
-
- if (!s->stack_head) {
- fprintf(stderr, "ACK! Empty stack!\n");
- return ARB_VP_ERROR;
- }
-
- *token = s->stack_head->tok;
- *token_attr = s->stack_head->tok_attr;
- if (ptn)
- *ptn = s->stack_head->pt;
- tl = s->stack_head;
-
- s->stack_head = tl->next;
- tl->next = s->stack_free_list;
- s->stack_free_list = tl;
-
- return ARB_VP_SUCESS;
-}
-
-/**
- * Put a token, its attribute, and the the parse tree node where the token is stored, onto
- * the parse stack.
- *
- * \param s The parse state
- * \param token Return for the nonterminal token on the top of the stack
- * \param token_attr Return for the the token attribute on the top of the stack
- * \param ptn Return for a pointer to the place in the parse tree where
- * the token lives
- *
- * \return ARB_VP_ERROR on out of memory while allocing more storage for the stack,
- * else ARB_VP_SUCESS
- */
-static GLint
-_stack_push(parse_state * s, GLint token, GLint token_attr,
- parse_tree_node * ptn)
-{
- token_list *tl;
-
- if (!s->stack_free_list) {
- _fill_free_list(s);
- if (!s->stack_free_list) {
- fprintf(stderr, "ACK! Error filling stack free list\n");
- return ARB_VP_ERROR;
- }
- }
-
- tl = s->stack_free_list;
-
- s->stack_free_list = tl->next;
-
- tl->tok = token;
- tl->tok_attr = token_attr;
- tl->pt = ptn;
- tl->next = s->stack_head;
-
- s->stack_head = tl;
-
- return ARB_VP_SUCESS;
-}
-
-/**
- * Allocate a new entry in the array table
- *
- * \param tab The array table to add a new element too
- *
- * \return The index into the array table where the new element is.
- */
-static GLint
-array_table_new(array_table * tab)
-{
- GLint idx;
- if (tab->len == 0) {
- tab->num_elements = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->data = (GLint **) _mesa_malloc(sizeof(GLint *));
- idx = 0;
- }
- else {
- tab->num_elements =
- (GLint *) _mesa_realloc(tab->num_elements, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->data =
- (GLint **) _mesa_realloc(tab->data, tab->len * sizeof(GLint *),
- (tab->len + 1) * sizeof(GLint *));
- idx = tab->len;
- }
-
- tab->len++;
- tab->num_elements[idx] = 0;
- tab->data[idx] = NULL;
-
- return idx;
-}
-
-/**
- * Add a new element to a array in a array table
- *
- * \param tab The array table
- * \param idx The index into the array table of the array we want to append an item onto
- * \param data The program parameter that goes into the idx-th array
- */
-static void
-array_table_add_data(array_table * tab, GLint idx, GLint data)
-{
- if ((idx < 0) || (idx >= tab->len)) {
- printf("Bad matrix index %d!\n", idx);
- return;
- }
-
- if (tab->data[idx] == NULL) {
- tab->data[idx] = (GLint *) _mesa_malloc(sizeof(GLint));
- }
- else {
- tab->data[idx] =
- (GLint *) _mesa_realloc(tab->data[idx],
- tab->num_elements[idx] * sizeof(GLint),
- (tab->num_elements[idx] +
- 1) * sizeof(GLint));
- }
-
- tab->data[idx][tab->num_elements[idx]] = data;
- tab->num_elements[idx]++;
-}
-
-
-/**
- * This adds a new entry into the binding table.
- *
- * \param tab The binding table
- * \param type The type of the state
- * \param offset For matrix bindings, e.g. MATRIXROWS_MODELVIEW, this gives the matrix number.
- * For PROGRAM_ENV_* and PROGRAM_LOCAL_* bindings, this gives the number of the first parameter
- *
- * \param row For MATRIXROWS bindings, this is the first row in the matrix we're bound to
- * \param nrows For MATRIXROWS bindings, this is the number of rows of the matrix we have.
- * For PROGRAM_ENV/LOCAL bindings, this is the number of parameters in the array we're bound to
- * \param values For CONSTANT bindings, these are the constant values we're bound to
- * \return The index into the binding table where this state is bound
- */
-static GLint
-binding_table_add(binding_table * tab, GLint type, GLint offset, GLint row,
- GLint nrows, GLfloat * values)
-{
- GLint key, a;
-
- key = tab->len;
-
- /* test for existance */
- for (a = 0; a < tab->len; a++) {
- if ((tab->type[a] == type) && (tab->offset[a] == offset)
- && (tab->row[a] == row) && (tab->num_rows[a] == nrows) &&
- (fabs(tab->consts[a][0] - values[0]) < .0001) &&
- (fabs(tab->consts[a][1] - values[1]) < .0001) &&
- (fabs(tab->consts[a][2] - values[2]) < .0001) &&
- (fabs(tab->consts[a][3] - values[3]) < .0001))
- return a;
- }
-
- if (tab->len == 0) {
- tab->type = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->offset = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->row = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->num_rows = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->consts = (GLfloat **) _mesa_malloc(sizeof(GLfloat *));
- tab->consts[0] = (GLfloat *) _mesa_malloc(4 * sizeof(GLfloat));
- tab->reg_num = (GLint *) _mesa_malloc(sizeof(GLint));
- }
- else {
- tab->type =
- (GLint *) _mesa_realloc(tab->type, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->offset =
- (GLint *) _mesa_realloc(tab->offset, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->row =
- (GLint *) _mesa_realloc(tab->row, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->num_rows =
- (GLint *) _mesa_realloc(tab->num_rows, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->consts =
- (GLfloat **) _mesa_realloc(tab->consts, tab->len * sizeof(GLfloat),
- (tab->len + 1) * sizeof(GLfloat *));
- tab->consts[tab->len] = (GLfloat *) _mesa_malloc(4 * sizeof(GLfloat));
- tab->reg_num =
- (GLint *) _mesa_realloc(tab->reg_num, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- }
-
- tab->type[key] = type;
- tab->offset[key] = offset;
- tab->row[key] = row; /*key;*/
- tab->num_rows[key] = nrows;
- tab->reg_num[key] = 0;
- _mesa_memcpy(tab->consts[key], values, 4 * sizeof(GLfloat));
- tab->len++;
-
- return key;
-}
-
-/**
- * Given a string and a start/end point, add a string into the float
- * symbol table (and convert it into a float)
- *
- * If we already have this GLfloat in the table, don't bother
- * adding another, just return the key to the existing one
- *
- * \param tab The float table
- * \param str The string containing the float
- * \param start The starting position of the float in str
- * \param end The ending position of the float in str
- *
- * \return The index of the float, after we insert it, in the float table
- */
-static GLint
-float_table_add(float_table *tab, const char *str, GLint start, GLint end)
-{
- GLint key, a;
- GLubyte *newstr;
-
- key = tab->len;
-
- newstr = (GLubyte *) _mesa_malloc(end - start + 2);
- _mesa_memset(newstr, 0, end - start + 2);
- _mesa_memcpy(newstr, str + start, end - start);
-
- /* test for existance */
- for (a = 0; a < tab->len; a++) {
- if (tab->data[a] == atof((char *) newstr)) {
- _mesa_free(newstr);
- return a;
- }
- }
-
- if (tab->len == 0) {
- tab->data = (GLdouble *) _mesa_malloc(sizeof(GLdouble));
- }
- else {
- tab->data =
- (GLdouble *) _mesa_realloc(tab->data, tab->len * sizeof(GLdouble),
- (tab->len + 1) * sizeof(GLdouble));
- }
-
- tab->data[key] = atof((char *) newstr);
- tab->len++;
-
- _mesa_free(newstr);
- return key;
-}
-
-/**
- * Given a string and a start/end point, add a string into the int
- * symbol table (and convert it into a int)
- *
- * If we already have this int in the table, don't bother
- * adding another, just return the key to the existing one
- *
- * \param tab The int table
- * \param str The string containing the int
- * \param start The starting position of the int in str
- * \param end The ending position of the int in str
- *
- * \return The index of the int, after we insert it, in the int table
- */
-static GLint
-int_table_add(int_table * tab, const char *str, GLint start, GLint end)
-{
- GLint key, a;
- char *newstr;
-
- key = tab->len;
-
- newstr = (char *) _mesa_malloc(end - start + 2);
- _mesa_memset(newstr, 0, end - start + 2);
- _mesa_memcpy(newstr, str + start, end - start);
-
- for (a = 0; a < tab->len; a++) {
- if (tab->data[a] == _mesa_atoi(newstr)) {
- _mesa_free(newstr);
- return a;
- }
- }
-
- if (tab->len == 0) {
- tab->data = (GLint *) _mesa_malloc(sizeof(GLint));
- }
- else {
- tab->data =
- (GLint *) _mesa_realloc(tab->data, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- }
-
- tab->data[key] = _mesa_atoi(newstr);
- tab->len++;
-
- _mesa_free(newstr);
- return key;
-}
-
-/**
- * Insert an identifier into the identifier symbol table
- *
- * If we already have this id in the table, don't bother
- * adding another, just return the key to the existing one
- *
- * If we already have this id in the table, and it has been
- * initialized to an ALIAS, return what the alias points
- * to, not the alias var
- *
- * \param tab The ID table
- * \param str The string containing the id
- * \param start The position in str where the id begins
- * \param end The position in str where the id ends
- *
- * \return either:
- * 1) The index into the id table where the id is
- * 2) The index into the id table where the alias of id, if we already have id
- * in the table, and it has been initialized to type ALIAS
- */
-static GLint
-id_table_add(id_table * tab, const char * str, GLint start, GLint end)
-{
- GLint key, a;
- GLubyte *newstr;
-
- key = tab->len;
-
- if (tab->len == 0) {
- tab->data = (GLubyte **) _mesa_malloc(sizeof(GLubyte *));
- tab->type = (GLint *) _mesa_malloc(sizeof(GLint));
- tab->attr = (GLint *) _mesa_malloc(sizeof(GLint));
- }
- else {
- tab->data =
- (GLubyte **) _mesa_realloc(tab->data, tab->len * sizeof(GLubyte *),
- (tab->len + 1) * sizeof(GLubyte *));
- tab->type =
- (GLint *) _mesa_realloc(tab->type, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- tab->attr =
- (GLint *) _mesa_realloc(tab->attr, tab->len * sizeof(GLint),
- (tab->len + 1) * sizeof(GLint));
- }
-
- /*tab->type[key] = TYPE_NONE;*/
-
- newstr = (GLubyte *) _mesa_malloc((end - start + 2) * sizeof(GLubyte));
- _mesa_memset(newstr, 0, end - start + 2);
- _mesa_memcpy(newstr, str + start, end - start);
-
- for (a = 0; a < tab->len; a++) {
- /* aha! we found it in the table */
- if (!_mesa_strcmp((char *) tab->data[a], (char *) newstr)) {
- _mesa_free(newstr);
-
- key = a;
- while ((tab->type[key] == TYPE_ALIAS) && (tab->attr[key] != -1)) {
- printf("----------- %s is an alias, renaming to %s\n",
- tab->data[key], tab->data[tab->attr[key]]);
- key = tab->attr[key];
- }
-
- return key;
- }
- }
-
- /* oh, we really have a new id */
- tab->data[key] = newstr;
- tab->type[key] = TYPE_NONE;
- tab->attr[key] = -1;
- tab->len++;
-
- return key;
-}
-
-/*#define SHOW_STEPS 1*/
-
-
-/**
- * Apply the specified production number to the parse state. This handles
- * looking at the production table and sticking new tokens onto the
- * parse stack.
- *
- * It also handles the construction of the parse tree
- *
- * \param s The parse state
- * \param num The production number to apply [the idx in the production table]
- *
- */
-static void
-apply_production(parse_state * s, int num)
-{
- GLint a, str_key, stack_tok, stack_tok_attr;
- GLint tok, nnptr = 0;
- parse_tree_node *ptn;
- parse_tree_node *pt_ptr_new[4];
-
- (void) _stack_pop(s, &stack_tok, &stack_tok_attr, &ptn);
- /*printf("apply prod %d\n", num); */
-
- ptn->prod_applied = num;
- for (a = 3; a >= 0; a--) {
- str_key = 0;
- tok = ptab[num].rhs[a];
-
- if (tok == NULL_TOKEN)
- continue;
-
- /* If we are pushing an identifier or a number, we need to translate the string literal
- * in the production table into an entry in the approprate symbol table
- */
- if (tok == ID_TOKEN) {
- str_key = id_table_add(&s->idents, ptab[num].key[a], 0,
- _mesa_strlen(ptab[num].key[a]));
- }
- else if (tok == INTEGER_TOKEN) {
- str_key = int_table_add(&s->ints, ptab[num].key[a], 0,
- _mesa_strlen(ptab[num].key[a]));
- }
- else if (tok == FLOAT_TOKEN) {
- str_key = float_table_add(&s->floats, ptab[num].key[a], 0,
- _mesa_strlen(ptab[num].key[a]));
- }
-
- /* "-1" is a wildcard flag, accept any id/float/int */
- if ((!_mesa_strcmp(ptab[num].key[a], "-1")) &&
- ((tok == FLOAT_TOKEN) || (tok == INTEGER_TOKEN)
- || (tok == ID_TOKEN))) {
- pt_ptr_new[nnptr] = parse_tree_node_init();
- pt_ptr_new[nnptr]->is_terminal = 0;
- pt_ptr_new[nnptr]->tok = tok;
- pt_ptr_new[nnptr]->tok_attr = str_key;
- nnptr++;
- _stack_push(s, ptab[num].rhs[a], str_key, pt_ptr_new[nnptr - 1]);
- }
- else if (tok >= NT_PROGRAM_TOKEN) {
- pt_ptr_new[nnptr] = parse_tree_node_init();
- pt_ptr_new[nnptr]->is_terminal = 0;
- pt_ptr_new[nnptr]->tok = tok;
- nnptr++;
- _stack_push(s, ptab[num].rhs[a], str_key, pt_ptr_new[nnptr - 1]);
- }
- else
- _stack_push(s, ptab[num].rhs[a], str_key, NULL);
- }
-
- tok = 0;
- if (ptn) {
- /*printf("%x %d:[%x %x %x %x]\n", ptn, nnptr, pt_ptr_new[0], pt_ptr_new[1], pt_ptr_new[2], pt_ptr_new[3]); */
-
- for (a = nnptr - 1; a >= 0; a--) {
- ptn->children[tok] = pt_ptr_new[a];
- /*printf("%x->children[%d] = %x\n", ptn, tok, pt_ptr_new[a]); */
- tok++;
- }
- }
-}
-
-/**
- * Here we initialize a bunch of variables to a given type (e.g. TEMP).
- *
- * We stick the variable type into the 0-th element in the var_queue array, followed by var_queue_size
- * indicies into the identifier table which designate the variables we are to init.
- *
- * \param s The parse state
- * \param var_queue The queue of variables to initialize. The first element in the array is variable
- * type. It is followed by var_queue_size indicies into the identifier table
- * who we are supposed to init to type var_queue[0].
- * \param var_queue_size The number of variables listed in var_queue[].
- *
- * \return ARB_VP_ERROR if we have already initilized a variable in var_queue, otherwise
- * ARB_VP_SUCESS
- */
-static GLint
-init_vars(parse_state * s, GLint * var_queue, GLint var_queue_size)
+static GLvoid
+debug_vp_inst(GLint num, struct vp_instruction *vp)
{
GLint a;
- a = 1;
- while (a < var_queue_size) {
- /* Make sure we haven't already init'd this var. This will
- * catch multiple definations of the same symbol
- */
- if (s->idents.type[var_queue[a]] != TYPE_NONE) {
- printf("%s already init'd! (%d)\n", s->idents.data[var_queue[a]],
- s->idents.type[var_queue[a]]);
- return ARB_VP_ERROR;
- }
-
- s->idents.type[var_queue[a]] = var_queue[0];
- s->idents.attr[var_queue[a]] = -1;
- a++;
- }
-
- return ARB_VP_SUCESS;
-}
-
-/**
- * The main parsing loop. This applies productions and builds the parse tree.
- *
- * \param s The parse state
- *
- * \return ARB_VP_ERROR on a parse error, else ARB_VP_SUCESS
- */
-static GLint
-parse(parse_state * s)
-{
- GLint input_tok, input_tok_attr;
- GLint stack_tok, stack_tok_attr;
- GLint peek_tok, peek_tok_attr, ret;
- GLint idx, str_key;
- GLint var_queue_size = 0;
- GLint *var_queue;
- parse_tree_node *ptn, *ptn2;
-
- /* This should be MAX_VAR + 1 */
- var_queue = (GLint *) _mesa_malloc(1000 * sizeof(int));
-
- s->stack_head = NULL;
-
- /* init the system by pushing the start symbol onto the stack */
- ptn = parse_tree_node_init();
- ptn->is_terminal = 0;
- ptn->tok = NT_PROGRAM_TOKEN;
- s->pt_head = ptn;
- _stack_push(s, NT_PROGRAM_TOKEN, 0, ptn);
-
- /* and get the first token */
- if (get_next_token(s, &input_tok, &input_tok_attr) == ARB_VP_ERROR) {
- fprintf(stderr, "LEX ERROR!!\n");
- return ARB_VP_ERROR;
- }
-
- while (1) {
- GLint la, is_nonterm;
-
- /* If the stack is empty, and we've eaten all the input, we're done */
- if ((_stack_peek(s, &stack_tok, &stack_tok_attr) == ARB_VP_ERROR) &&
- (input_tok == EOF_TOKEN))
- break;
-
-#ifdef SHOW_STEPS
- printf("stack: %d input: ", stack_tok);
- debug_token(s, input_tok, input_tok_attr);
- printf("\n");
-#endif
-
- /* We [may] have a non-terminal on top of the stack, apply
- * productions!
- */
- switch (stack_tok) {
- /* Special case non-terminals */
-
- /* productions 64-66 */
- case NT_SRC_REG_TOKEN:
- if ((input_tok == VERTEX_TOKEN) ||
- ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] == TYPE_ATTRIB))) {
- apply_production(s, 64);
- }
- else
- if ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] == TYPE_TEMP)) {
- apply_production(s, 65);
- }
- else
- if ((input_tok == STATE_TOKEN) ||
- (input_tok == PROGRAM_TOKEN) ||
- (input_tok == LBRACE_TOKEN) ||
- (input_tok == FLOAT_TOKEN) ||
- (input_tok == INTEGER_TOKEN) ||
- ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] == TYPE_PARAM_SINGLE))
- || ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] ==
- TYPE_PARAM_ARRAY))) {
- apply_production(s, 66);
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
-
- /* productions 67-68 */
- case NT_DST_REG_TOKEN:
- /* We can only write to result.*, TEMP vars, or OUTPUT vars */
- if (input_tok == RESULT_TOKEN) {
- apply_production(s, 68);
- }
- else if (input_tok == ID_TOKEN) {
- if (s->idents.type[input_tok_attr] == TYPE_TEMP) {
- apply_production(s, 67);
- }
- else if (s->idents.type[input_tok_attr] == TYPE_OUTPUT) {
- apply_production(s, 68);
- }
- else {
- return ARB_VP_ERROR;
- }
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
-
- /* productions 72-4 */
- case NT_PROG_PARAM_REG_TOKEN:
- if ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] == TYPE_PARAM_SINGLE)) {
- apply_production(s, 72);
- }
- else
- if ((input_tok == ID_TOKEN)
- && (s->idents.type[input_tok_attr] == TYPE_PARAM_ARRAY)) {
- apply_production(s, 73);
- }
- else
- if ((input_tok == STATE_TOKEN) ||
- (input_tok == PROGRAM_TOKEN) ||
- (input_tok == FLOAT_TOKEN) ||
- (input_tok == INTEGER_TOKEN) || (input_tok == LBRACE_TOKEN)) {
- apply_production(s, 74);
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
-
- /* productions 286-7 */
- case NT_VAR_NAME_LIST_TOKEN:
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
-
- var_queue[var_queue_size] = input_tok_attr;
- var_queue_size++;
+ for (a=0; a<num; a++) {
+ switch (vp[a].Opcode) {
+ case VP_OPCODE_MOV:
+ fprintf(stderr, "VP_OPCODE_MOV"); break;
- if ((ret == ARB_VP_ERROR) || (peek_tok != COMMA_TOKEN)) {
- apply_production(s, 286);
+ case VP_OPCODE_LIT:
+ fprintf(stderr, "VP_OPCODE_LIT"); break;
- /* Dump the var_queue & assign types */
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
- }
- else {
- apply_production(s, 287);
- }
- break;
+ case VP_OPCODE_RCP:
+ fprintf(stderr, "VP_OPCODE_RCP"); break;
- /* productions 296-7 */
- case NT_RESULT_COL_BINDING2_TOKEN:
- if ((input_tok == SEMICOLON_TOKEN) || (input_tok == COMMA_TOKEN)) {
- apply_production(s, 296);
- }
- else if (input_tok == PERIOD_TOKEN) {
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- if ((peek_tok == ID_TOKEN) &&
- ((!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "back")) ||
- (!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "front")))) {
- apply_production(s, 297);
- }
- else {
- apply_production(s, 296);
- }
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_RSQ:
+ fprintf(stderr, "VP_OPCODE_RSQ"); break;
- /* productions 300-1 */
- case NT_RESULT_COL_BINDING4_TOKEN:
- if ((input_tok == SEMICOLON_TOKEN) || (input_tok == COMMA_TOKEN)) {
- apply_production(s, 300);
- }
- else if (input_tok == PERIOD_TOKEN) {
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- if ((ret == ARB_VP_SUCESS) && (peek_tok == ID_TOKEN) &&
- ((!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "primary")) ||
- (!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "secondary"))))
- {
- apply_production(s, 301);
- }
- else {
- apply_production(s, 300);
- }
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_EXP:
+ fprintf(stderr, "VP_OPCODE_EXP"); break;
- /* productions 306-7 */
- case NT_OPT_COLOR_TYPE_TOKEN:
- if ((input_tok == SEMICOLON_TOKEN) || (input_tok == COMMA_TOKEN)) {
- apply_production(s, 307);
- }
- else if (input_tok == PERIOD_TOKEN) {
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- if ((ret == ARB_VP_SUCESS) && (peek_tok == ID_TOKEN) &&
- ((!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "primary")) ||
- (!_mesa_strcmp((char *) s->idents.data[peek_tok_attr], "secondary"))))
- {
- apply_production(s, 306);
- }
- else {
- apply_production(s, 307);
- }
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_LOG:
+ fprintf(stderr, "VP_OPCODE_LOG"); break;
- /* production 313 -- Do this so we can mangle IDs as they are
- * added into the ID table for the lex
- */
- case NT_ALIAS_STATEMENT_TOKEN:
- if (input_tok == ALIAS_TOKEN) {
- GLint alias_to;
+ case VP_OPCODE_MUL:
+ fprintf(stderr, "VP_OPCODE_MUL"); break;
- apply_production(s, 313);
+ case VP_OPCODE_ADD:
+ fprintf(stderr, "VP_OPCODE_ADD"); break;
+
+ case VP_OPCODE_DP3:
+ fprintf(stderr, "VP_OPCODE_DP3"); break;
- /* stack ALIAS */
- var_queue_size = 1;
- var_queue[0] = TYPE_ALIAS;
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- var_queue[var_queue_size] = peek_tok_attr;
- var_queue_size++;
+ case VP_OPCODE_DP4:
+ fprintf(stderr, "VP_OPCODE_DP4"); break;
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
+ case VP_OPCODE_DST:
+ fprintf(stderr, "VP_OPCODE_DST"); break;
- /* Now, peek ahead and see what we are aliasing _to_ */
- alias_to = peek_tok_attr;
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 3);
- if (ret == ARB_VP_SUCESS) {
- s->idents.attr[alias_to] = peek_tok_attr;
- }
- else
- return ARB_VP_ERROR;
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_MIN:
+ fprintf(stderr, "VP_OPCODE_MIN"); break;
- /* productions 314 (ESTABLISH_NAME) duplicates are caught by the ID symbol table */
+ case VP_OPCODE_MAX:
+ fprintf(stderr, "VP_OPCODE_MAX"); break;
- /* productions 315 */
- case NT_ESTABLISHED_NAME_TOKEN:
- if (input_tok == ID_TOKEN) {
- if (s->idents.type[input_tok_attr] == TYPE_NONE) {
- printf("Trying to use variable %s before initializing!\n",
- s->idents.data[input_tok_attr]);
- return ARB_VP_ERROR;
- }
- else {
- apply_production(s, 315);
- }
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_SLT:
+ fprintf(stderr, "VP_OPCODE_SLT"); break;
+ case VP_OPCODE_SGE:
+ fprintf(stderr, "VP_OPCODE_SGE"); break;
- /* productions 318-9 */
- case NT_SWIZZLE_SUFFIX2_TOKEN:
- if (_mesa_strlen((char *) s->idents.data[input_tok_attr]) == 1) {
- apply_production(s, 318);
- }
- else if (_mesa_strlen((char *) s->idents.data[input_tok_attr]) == 4) {
- apply_production(s, 319);
- }
- else {
- return ARB_VP_ERROR;
- }
- break;
+ case VP_OPCODE_MAD:
+ fprintf(stderr, "VP_OPCODE_MAD"); break;
- /* 4-component swizzle mask -- this is a total hack */
-#define IS_SWZ_CMP(foo) ((foo == 'x') || (foo == 'y') || (foo == 'z') || (foo == 'w'))
- case NT_COMPONENT4_TOKEN:
- {
- GLubyte *str = s->idents.data[input_tok_attr];
+ case VP_OPCODE_ARL:
+ fprintf(stderr, "VP_OPCODE_ARL"); break;
- if (IS_SWZ_CMP(str[0]) && IS_SWZ_CMP(str[1]) && IS_SWZ_CMP(str[2])
- && IS_SWZ_CMP(str[3])) {
- _stack_pop(s, &stack_tok, &stack_tok_attr, &ptn);
- /* _stack_push(s, input_tok, input_tok_attr, NULL);*/
+ case VP_OPCODE_DPH:
+ fprintf(stderr, "VP_OPCODE_DPH"); break;
- ptn2 = parse_tree_node_init();
- ptn2->tok = input_tok;
- ptn2->tok_attr = input_tok_attr;
- ptn2->is_terminal = 1;
- ptn->children[0] = ptn2;
- _stack_push(s, input_tok, input_tok_attr, ptn2);
- }
- else {
- return ARB_VP_ERROR;
- }
- }
- break;
+ case VP_OPCODE_RCC:
+ fprintf(stderr, "VP_OPCODE_RCC"); break;
- /* Handle general non-terminals using tables, and terminals */
- default:
- is_nonterm = 0;
- for (la = 0; la < nlas; la++) {
- if (latab[la].lhs != stack_tok)
- continue;
+ case VP_OPCODE_SUB:
+ fprintf(stderr, "VP_OPCODE_SUB"); break;
- if (latab[la].la != input_tok)
- continue;
+ case VP_OPCODE_ABS:
+ fprintf(stderr, "VP_OPCODE_ABS"); break;
- if (input_tok == ID_TOKEN) {
- str_key =
- id_table_add(&s->idents, latab[la].la_kw, 0,
- _mesa_strlen(latab[la].la_kw));
- if ((str_key != input_tok_attr)
- && (_mesa_strcmp(latab[la].la_kw, "-1")))
- continue;
- }
- else if (input_tok == INTEGER_TOKEN) {
- if ((s->ints.data[input_tok_attr] !=
- _mesa_atoi(latab[la].la_kw))
- && (_mesa_atoi(latab[la].la_kw) != -1)) {
- continue;
- }
- }
- else if (input_tok == FLOAT_TOKEN) {
- if ((s->floats.data[input_tok_attr] != atof(latab[la].la_kw))
- && (atof(latab[la].la_kw) != -1))
- continue;
- }
- idx = latab[la].prod_idx;
+ case VP_OPCODE_FLR:
+ fprintf(stderr, "VP_OPCODE_FLR"); break;
- /* Here we stack identifiers onto the var_queue */
- switch (idx) {
- /* setup ATTRIB */
- case 120:
- var_queue_size = 1;
- var_queue[0] = TYPE_ATTRIB;
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- var_queue[var_queue_size] = peek_tok_attr;
- var_queue_size++;
+ case VP_OPCODE_FRC:
+ fprintf(stderr, "VP_OPCODE_FRC"); break;
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
- break;
+ case VP_OPCODE_EX2:
+ fprintf(stderr, "VP_OPCODE_EX2"); break;
- /* stack PARAM */
- case 134:
- var_queue_size = 1;
- var_queue[0] = TYPE_PARAM;
+ case VP_OPCODE_LG2:
+ fprintf(stderr, "VP_OPCODE_LG2"); break;
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- var_queue[var_queue_size] = peek_tok_attr;
- var_queue_size++;
+ case VP_OPCODE_POW:
+ fprintf(stderr, "VP_OPCODE_POW"); break;
- break;
+ case VP_OPCODE_XPD:
+ fprintf(stderr, "VP_OPCODE_XPD"); break;
- case 135:
- var_queue[0] = TYPE_PARAM_SINGLE;
-
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
- break;
-
- case 136:
- var_queue[0] = TYPE_PARAM_ARRAY;
-
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
- break;
-
- /* stack TEMP */
- case 284:
- var_queue_size = 1;
- var_queue[0] = TYPE_TEMP;
- break;
-
- /* stack ADDRESS */
- case 285:
- var_queue_size = 1;
- var_queue[0] = TYPE_ADDRESS;
- break;
-
- /* stack OUTPUT */
- case 288:
- var_queue_size = 1;
- var_queue[0] = TYPE_OUTPUT;
- ret = peek_next_token(s, &peek_tok, &peek_tok_attr, 1);
- var_queue[var_queue_size] = peek_tok_attr;
- var_queue_size++;
-
- if (init_vars(s, var_queue, var_queue_size) == ARB_VP_ERROR)
- return ARB_VP_ERROR;
- break;
-
-
- /* stack opts for varNameList -- see above */
-
- }
-
- /* finally.. we match! apply the production */
- if ((idx < 0) || (idx >= nprods)) {
- fprintf(stderr,
- "Prod IDX of %d in look ahead table [%d] is horked!\n",
- idx, la);
- exit(1);
- }
-
- apply_production(s, idx);
- is_nonterm = 1;
- break;
- }
-
- if (!is_nonterm) {
- if ((stack_tok == EOF_TOKEN) && (s->stack_head == NULL))
- return ARB_VP_SUCESS;
-
- if ((input_tok == stack_tok) ||
- ((stack_tok == FLOAT_TOKEN)
- && (input_tok == INTEGER_TOKEN))) {
- /* XXX: Need to check values for int/id/GLfloat tokens here -- yes! */
-
- _stack_pop(s, &stack_tok, &stack_tok_attr, &ptn);
- if ((ptn)
- && ((stack_tok == FLOAT_TOKEN)
- || (stack_tok == INTEGER_TOKEN)
- || (stack_tok == ID_TOKEN))) {
- ptn->is_terminal = 1;
- ptn->tok = input_tok;
- ptn->tok_attr = input_tok_attr;
- }
-
- if (get_next_token(s, &input_tok, &input_tok_attr) ==
- ARB_VP_ERROR) {
- fprintf(stderr, "PARSE ERROR!!\n");
- return ARB_VP_ERROR;
- }
- }
- else {
- fprintf(stderr, "PARSE ERROR!\n");
- return ARB_VP_ERROR;
- }
- }
- break;
+ case VP_OPCODE_SWZ:
+ fprintf(stderr, "VP_OPCODE_SWZ"); break;
+
+ case VP_OPCODE_END:
+ fprintf(stderr, "VP_OPCODE_END"); break;
}
- }
-
- return ARB_VP_SUCESS;
-
-
-}
-
-/**
- * Print out the parse tree from a given point. Just for debugging.
- *
- * \param s The parse state
- * \param ptn The root to start printing from
- */
-static void
-print_parse_tree(parse_state * s, parse_tree_node * ptn)
-{
- GLint a;
-
- /* If we're terminal, prGLint and exit */
- if (ptn->is_terminal) {
- debug_token(s, ptn->tok, ptn->tok_attr);
- printf("\n");
- return;
- }
-
- /* Else, recurse on all our children */
- for (a = 0; a < 4; a++) {
- if (!ptn->children[a])
- return;
-
- print_parse_tree(s, ptn->children[a]);
- }
-}
-
-/**
- * Free all of the children of a given parse tree node.
- *
- * \param ptn The root node whose children we recursively free
- */
-static void
-parse_tree_free_children(parse_tree_node * ptn)
-{
- GLint a;
- if (!ptn)
- return;
- if (!ptn->children[0])
- return;
+ fprintf(stderr, " D(0x%x:%d:%d%d%d%d) ", vp[a].DstReg.File, vp[a].DstReg.Index,
+ vp[a].DstReg.WriteMask[0],
+ vp[a].DstReg.WriteMask[1],
+ vp[a].DstReg.WriteMask[2],
+ vp[a].DstReg.WriteMask[3]);
+
+ fprintf(stderr, "S1(0x%x:%d:%d%d%d%d) ", vp[a].SrcReg[0].File, vp[a].SrcReg[0].Index,
+ vp[a].SrcReg[0].Swizzle[0],
+ vp[a].SrcReg[0].Swizzle[1],
+ vp[a].SrcReg[0].Swizzle[2],
+ vp[a].SrcReg[0].Swizzle[3]);
- for (a = 0; a < 4; a++) {
- if (ptn->children[a]) {
- parse_tree_free_children(ptn->children[a]);
- _mesa_free(ptn->children[a]);
- ptn->children[a] = NULL;
- }
- }
-}
+ fprintf(stderr, "S2(0x%x:%d:%d%d%d%d) ", vp[a].SrcReg[1].File, vp[a].SrcReg[1].Index,
+ vp[a].SrcReg[1].Swizzle[0],
+ vp[a].SrcReg[1].Swizzle[1],
+ vp[a].SrcReg[1].Swizzle[2],
+ vp[a].SrcReg[1].Swizzle[3]);
-/**
- * Given the name of a matrix, and a modifier, expand into a binding type.
- *
- * names: 0 -- modelview
- * 1 -- projection
- * 2 -- mvp
- * 3 -- texture
- * 4 -- palette
- * 5 -- program
- *
- * mods: 0 -- normal
- * 1 -- inverse
- * 2 -- invtrans
- * 3 -- transpose
- *
- * \param name The number of the matrix type
- * \param mod The number of the matrix modifier
- *
- * \return The binding state corresponding to name & mod
- */
-static GLint
-name_and_mod_to_matrixrows(GLint name, GLint mod)
-{
- switch (name) {
- case 0: /* modelview */
- switch (mod) {
- case 0:
- return MATRIXROWS_MODELVIEW;
- case 1:
- return MATRIXROWS_MODELVIEW_INVERSE;
- case 2:
- return MATRIXROWS_MODELVIEW_INVTRANS;
- case 3:
- return MATRIXROWS_MODELVIEW_TRANSPOSE;
- }
- break;
- case 1: /* projection */
- switch (mod) {
- case 0:
- return MATRIXROWS_PROJECTION;
- case 1:
- return MATRIXROWS_PROJECTION_INVERSE;
- case 2:
- return MATRIXROWS_PROJECTION_INVTRANS;
- case 3:
- return MATRIXROWS_PROJECTION_TRANSPOSE;
- }
-
- break;
- case 2: /* mvp */
- switch (mod) {
- case 0:
- return MATRIXROWS_MVP;
- case 1:
- return MATRIXROWS_MVP_INVERSE;
- case 2:
- return MATRIXROWS_MVP_INVTRANS;
- case 3:
- return MATRIXROWS_MVP_TRANSPOSE;
- }
+ fprintf(stderr, "S3(0x%x:%d:%d%d%d%d)", vp[a].SrcReg[2].File, vp[a].SrcReg[2].Index,
+ vp[a].SrcReg[2].Swizzle[0],
+ vp[a].SrcReg[2].Swizzle[1],
+ vp[a].SrcReg[2].Swizzle[2],
+ vp[a].SrcReg[2].Swizzle[3]);
- break;
- case 3: /* texture */
- switch (mod) {
- case 0:
- return MATRIXROWS_TEXTURE;
- case 1:
- return MATRIXROWS_TEXTURE_INVERSE;
- case 2:
- return MATRIXROWS_TEXTURE_INVTRANS;
- case 3:
- return MATRIXROWS_TEXTURE_TRANSPOSE;
- }
- break;
- case 4: /* palette */
- switch (mod) {
- case 0:
- return MATRIXROWS_PALETTE;
- case 1:
- return MATRIXROWS_PALETTE_INVERSE;
- case 2:
- return MATRIXROWS_PALETTE_INVTRANS;
- case 3:
- return MATRIXROWS_PALETTE_TRANSPOSE;
- }
- break;
- case 5: /* program */
- switch (mod) {
- case 0:
- return MATRIXROWS_PROGRAM;
- case 1:
- return MATRIXROWS_PROGRAM_INVERSE;
- case 2:
- return MATRIXROWS_PROGRAM_INVTRANS;
- case 3:
- return MATRIXROWS_PROGRAM_TRANSPOSE;
- }
- break;
+ fprintf(stderr, "\n");
}
-
- return 0;
}
-/**
- * This takes a node in the parse tree for an OPTIONAL_MASK token
- * being derived into a write mask for a register.
- *
- * This will expand the production number into a 4-component
- * write mask.
- *
- * \param mask_node The parse tree node for the optional_mask non-termina
- * \param mask 4-component write mask
- */
-static void
-get_optional_mask(parse_tree_node * mask_node, GLint * mask)
-{
- if (mask_node->prod_applied == 97) {
- switch (mask_node->children[0]->prod_applied) {
- case 99: /* x */
- mask[0] = 1;
- mask[1] = 0;
- mask[2] = 0;
- mask[3] = 0;
- break;
-
- case 100: /* y */
- mask[0] = 0;
- mask[1] = 1;
- mask[2] = 0;
- mask[3] = 0;
- break;
-
- case 101: /* xy */
- mask[0] = 1;
- mask[1] = 1;
- mask[2] = 0;
- mask[3] = 0;
- break;
-
- case 102: /* z */
- mask[0] = 0;
- mask[1] = 0;
- mask[2] = 1;
- mask[3] = 0;
- break;
-
- case 103: /* xz */
- mask[0] = 1;
- mask[1] = 0;
- mask[2] = 1;
- mask[3] = 0;
- break;
-
- case 104: /* yz */
- mask[0] = 0;
- mask[1] = 1;
- mask[2] = 1;
- mask[3] = 0;
- break;
-
- case 105: /* xyz */
- mask[0] = 1;
- mask[1] = 1;
- mask[2] = 1;
- mask[3] = 0;
- break;
-
- case 106: /* w */
- mask[0] = 0;
- mask[1] = 0;
- mask[2] = 0;
- mask[3] = 1;
- break;
-
- case 107: /* xw */
- mask[0] = 1;
- mask[1] = 0;
- mask[2] = 0;
- mask[3] = 1;
- break;
-
- case 108: /* yw */
- mask[0] = 0;
- mask[1] = 1;
- mask[2] = 0;
- mask[3] = 1;
- break;
- case 109: /* xyw */
- mask[0] = 1;
- mask[1] = 1;
- mask[2] = 0;
- mask[3] = 1;
- break;
-
- case 110: /* zw */
- mask[0] = 0;
- mask[1] = 0;
- mask[2] = 1;
- mask[3] = 1;
- break;
-
- case 111: /* xzw */
- mask[0] = 1;
- mask[1] = 0;
- mask[2] = 1;
- mask[3] = 1;
- break;
-
- case 112: /* yzw */
- mask[0] = 0;
- mask[1] = 1;
- mask[2] = 1;
- mask[3] = 1;
- break;
-
- case 113: /* xyzw */
- mask[0] = 1;
- mask[1] = 1;
- mask[2] = 1;
- mask[3] = 1;
- break;
- }
- }
-}
-
-/**
- * Given a MASKED_DST_REG token in a parse tree node, figure out what
- * register number and write mask the production results in.
- *
- * \param s The parse state
- * \param mdr The parse tree node
- * \param dest The destination register number
- * \param dest_mask The 4-component write mask
- */
-static void
-get_masked_dst_reg(parse_state * s, parse_tree_node * mdr, GLint * dest,
- GLint * dest_mask)
-{
- GLint a;
-
- /* dest is a TEMP variable */
- if (mdr->children[0]->prod_applied == 67) {
- a = mdr->children[0]->children[0]->children[0]->children[0]->tok_attr;
- *dest = s->binds.reg_num[s->idents.attr[a]];
- printf("dst reg: %d (%s)\n", *dest, s->idents.data[a]);
- }
- else {
- /* dest is a result variable */
- if (mdr->children[0]->children[0]->prod_applied == 86) {
- a = mdr->children[0]->children[0]->children[0]->children[0]->
- tok_attr;
- *dest = s->binds.reg_num[s->idents.attr[a]];
- printf("dest reg: %d (%s)\n", *dest, s->idents.data[a]);
- }
- /* dest is an implicit binding to result/output state */
- else {
- a = mdr->children[0]->children[0]->children[0]->tok_attr;
- *dest = s->binds.reg_num[a];
- printf("dst: %d\n", *dest);
- }
- }
-
- /* mdr->children[1] is the write mask */
- get_optional_mask(mdr->children[1], dest_mask);
-}
-
-
-/**
- * Given a parse tree node with a swizzled src token, figure out the swizzle
- * mask.
- *
- * \param s The parse state
- * \param ssr The parse tree node
- * \param swz The 4-component swizzle, 0 - x, 1 - y, 2 - z, 3 - w
- */
-static void
-get_src_swizzle(parse_state * s, parse_tree_node * ssr, GLint * swz)
-{
- GLint a;
- GLubyte *c;
-
- if (ssr->prod_applied == 317) {
- if (ssr->children[0]->prod_applied == 318) { /* single component */
- switch (ssr->children[0]->children[0]->prod_applied) {
- case 93: /* x */
- for (a = 0; a < 4; a++)
- swz[a] = 0;
- break;
-
- case 94: /* y */
- for (a = 0; a < 4; a++)
- swz[a] = 1;
- break;
-
- case 95: /* z */
- for (a = 0; a < 4; a++)
- swz[a] = 2;
- break;
-
- case 96: /* w */
- for (a = 0; a < 4; a++)
- swz[a] = 3;
- break;
- }
- }
- else { /* 4-component */
-
- c = s->idents.data[ssr->children[0]->children[0]->children[0]->
- tok_attr];
- for (a = 0; a < 4; a++) {
- switch (c[a]) {
- case 'x':
- swz[a] = 0;
- break;
- case 'y':
- swz[a] = 1;
- break;
- case 'z':
- swz[a] = 2;
- break;
- case 'w':
- swz[a] = 3;
- break;
- }
- }
- }
- }
-}
-
-
-/**
- * Given a parse tree node for a src register with an optional sign, figure out
- * what register the src maps to, and what the sign is
- *
- * \param s The parse state
- * \param ssr The parse tree node to work from
- * \param sign The sign (1 or -1)
- * \param ssrc The src register number
- */
-static void
-get_optional_sign_and_src_reg(parse_state * s, parse_tree_node * ssr,
- int *sign, int *ssrc)
-{
- GLint a;
-
- /* ssr->children[0] is the optionalSign */
- if (ssr->children[0]->prod_applied == 282) { /* - */
- *sign = -1;
- }
-
- /* ssr->children[1] is the srcReg */
-
- /* The src is a vertex attrib */
- if (ssr->children[1]->prod_applied == 64) {
- if (ssr->children[1]->children[0]->prod_applied == 69) { /* variable */
- a = ssr->children[1]->children[0]->children[0]->children[0]->
- tok_attr;
- *ssrc = s->binds.reg_num[s->idents.attr[a]];
- printf("src reg: %d (%s)\n", *ssrc, s->idents.data[a]);
- }
- else { /* implicit binding */
-
- a = ssr->children[1]->children[0]->children[0]->tok_attr;
- *ssrc = s->binds.reg_num[a];
- printf("src reg: %d %d (implicit binding)\n",
- *ssrc, s->binds.type[a]);
- }
- }
- else
- /* The src is a temp variable */
- if (ssr->children[1]->prod_applied == 65) {
- a = ssr->children[1]->children[0]->children[0]->children[0]->tok_attr;
- *ssrc = s->binds.reg_num[s->idents.attr[a]];
- printf("src reg: %d (%s)\n", *ssrc, s->idents.data[a]);
- }
- /* The src is a param */
- else {
- /* We have a single item */
- if (ssr->children[1]->children[0]->prod_applied == 72) {
- a = ssr->children[1]->children[0]->children[0]->children[0]->
- children[0]->tok_attr;
- *ssrc = s->binds.reg_num[s->idents.attr[a]];
- printf("src reg: %d (%s)\n", *ssrc, s->idents.data[a]);
- }
- else
- /* We have an array of items */
- if (ssr->children[1]->children[0]->prod_applied == 73) {
- a = ssr->children[1]->children[0]->children[0]->children[0]->
- children[0]->tok_attr;
- *ssrc = s->binds.reg_num[s->idents.attr[a]];
-
- /* We have an absolute offset into the array */
- if (ssr->children[1]->children[0]->children[1]->prod_applied == 77) {
- /* Ok, are array will be layed out fully in registers, so we can compute the reg */
- printf("array base: %s\n", s->idents.data[a]);
- a = ssr->children[1]->children[0]->children[1]->children[0]->
- children[0]->tok_attr;
- printf("array absolute offset: %d\n", s->ints.data[a]);
- *ssrc += s->ints.data[a];
- }
- /* Otherwise, we have to grab the offset register */
- else { /* progParamArrayRel */
-
- /* XXX: We don't know the offset, so we have to grab the offset register # */
- }
- }
- /* Otherwise, we have an implicit binding */
- else { /* paramSingleItemUse */
-
- if (ssr->children[1]->children[0]->children[0]->prod_applied == 148) { /* programSingleItem */
- a = ssr->children[1]->children[0]->children[0]->children[0]->
- tok_attr;
- }
- else {
- a = ssr->children[1]->children[0]->children[0]->children[0]->
- children[0]->tok_attr;
- }
- *ssrc = s->binds.reg_num[a];
- printf("src reg: %d %d (implicit binding)\n", *ssrc,
- s->binds.type[a]);
- }
- }
-}
-
-
-/**
- * Figure out what register a src reg is in, as well as the swizzle mask and the
- * sign
- *
- * \param s The parse state
- * \param ssr The swizzeled src reg parse tree node
- * \param sign The return value for the sign {1, -1}
- * \param ssrc The return value for the register number
- * \param swz The 4-component swizzle mask
- */
-static void
-get_swizzle_src_reg(parse_state * s, parse_tree_node * ssr, GLint * sign,
- GLint * ssrc, GLint * swz)
-{
- get_optional_sign_and_src_reg(s, ssr, sign, ssrc);
-
- /* ssr->children[2] is the swizzleSuffix */
- get_src_swizzle(s, ssr->children[2], swz);
-}
-
-/**
- * Just like get_swizzle_src_reg, but find the scalar value to use from the register instead
- * of the swizzle mask
- *
- * \param s The parse state
- * \param ssr The swizzeled src reg parse tree node
- * \param sign The return value for the sign {1, -1}
- * \param ssrc The return value for the register number
- * \param scalar The 1-component scalar number
- */
-static void
-get_scalar_src_reg(parse_state * s, parse_tree_node * ssr, GLint * sign,
- GLint * ssrc, GLint * scalar)
-{
- get_optional_sign_and_src_reg(s, ssr, sign, ssrc);
-
- /* sn->children[2] is a scalarSuffix */
- switch (ssr->children[2]->children[0]->prod_applied) {
- case 93:
- *scalar = 0;
- break;
- case 94:
- *scalar = 1;
- break;
- case 95:
- *scalar = 2;
- break;
- case 96:
- *scalar = 3;
- break;
- }
-}
-
-/**
- * Recursivly traverse the parse tree and generate Mesa opcodes
- *
- * \param s The parse state
- * \param ptn The parse tree node to process
- */
-static void
-parse_tree_generate_opcodes(parse_state * s, parse_tree_node * ptn)
-{
- GLint a;
- GLint opcode, dst, src[3];
- GLint dst_mask[4], src_swz[3][4], src_scalar[3], src_sign[3];
- parse_tree_node *dn, *sn[3];
-
- src_sign[0] = src_sign[1] = src_sign[2] = 1;
- for (a = 0; a < 4; a++) {
- src_swz[0][a] = a;
- src_swz[1][a] = a;
- src_swz[2][a] = a;
- }
- src_scalar[0] = src_scalar[1] = src_scalar[2] = 0;
- dst_mask[0] = dst_mask[1] = dst_mask[2] = dst_mask[3] = 1;
-
- switch (ptn->prod_applied) {
- case 17: /* ARL */
- opcode = VP_OPCODE_ARL;
-
- dn = ptn->children[0];
- sn[0] = ptn->children[1];
-
- /* dn is a maskedAddrReg */
- /* dn->children[0] is an addrReg */
- /* dn->children[1] is an addrWriteMask */
- /* XXX: do this.. */
- break;
-
- case 18: /* VECTORop */
- switch (ptn->children[0]->prod_applied) {
- case 19: /* ABS */
- opcode = VP_OPCODE_ABS;
- break;
- case 20: /* FLR */
- opcode = VP_OPCODE_FLR;
- break;
- case 21: /* FRC */
- opcode = VP_OPCODE_FRC;
- break;
- case 22: /* LIT */
- opcode = VP_OPCODE_LIT;
- break;
- case 23: /* MOV */
- opcode = VP_OPCODE_MOV;
- break;
- }
- printf("opcode: %d\n", opcode);
-
- /* dn is a maskedDstReg */
- dn = ptn->children[1];
-
- /* sn is a swizzleSrcReg */
- sn[0] = ptn->children[2];
-
- get_masked_dst_reg(s, dn, &dst, dst_mask);
- printf("dst: %d mask: %d %d %d %d\n", dst, dst_mask[0], dst_mask[1],
- dst_mask[2], dst_mask[3]);
-
- get_swizzle_src_reg(s, sn[0], &src_sign[0], &src[0], src_swz[0]);
-
- printf("src sign: %d reg: %d swz: %d %d %d %d\n",
- src_sign[0], src[0], src_swz[0][0], src_swz[0][1], src_swz[0][2],
- src_swz[0][3]);
- break;
-
- case 24: /* SCALARop */
- switch (ptn->children[0]->prod_applied) {
- case 25: /* EX2 */
- opcode = VP_OPCODE_EX2;
- break;
- case 26: /* EXP */
- opcode = VP_OPCODE_EXP;
- break;
- case 27: /* LG2 */
- opcode = VP_OPCODE_LG2;
- break;
- case 28: /* LOG */
- opcode = VP_OPCODE_LOG;
- break;
- case 29: /* RCP */
- opcode = VP_OPCODE_RCP;
- break;
- case 30: /* RSQ */
- opcode = VP_OPCODE_RSQ;
- break;
- }
-
- printf("opcode: %d\n", opcode);
- /* dn is a maskedDstReg */
- dn = ptn->children[1];
-
- get_masked_dst_reg(s, dn, &dst, dst_mask);
- printf("dst: %d mask: %d %d %d %d\n", dst, dst_mask[0], dst_mask[1],
- dst_mask[2], dst_mask[3]);
-
- /* sn is a scalarSrcReg */
- sn[0] = ptn->children[2];
-
- get_scalar_src_reg(s, sn[0], &src_sign[0], &src[0], &src_scalar[0]);
- printf("src sign: %d reg: %d scalar: %d\n", src_sign[0], src[0],
- src_scalar[0]);
- break;
-
- case 31: /* BINSC */
- opcode = VP_OPCODE_POW;
-
- printf("opcode: %d\n", opcode);
- /* maskedDstReg */
- dn = ptn->children[1];
- get_masked_dst_reg(s, dn, &dst, dst_mask);
- printf("dst: %d mask: %d %d %d %d\n", dst, dst_mask[0], dst_mask[1],
- dst_mask[2], dst_mask[3]);
-
- /* sn are scalarSrcReg's */
- sn[0] = ptn->children[2]->children[0];
- sn[1] = ptn->children[2]->children[1];
-
- get_scalar_src_reg(s, sn[0], &src_sign[0], &src[0], &src_scalar[0]);
- get_scalar_src_reg(s, sn[1], &src_sign[1], &src[1], &src_scalar[1]);
-
- printf("src0 sign: %d reg: %d scalar: %d\n", src_sign[0], src[0],
- src_scalar[0]);
- printf("src1 sign: %d reg: %d scalar: %d\n", src_sign[1], src[1],
- src_scalar[1]);
- break;
-
-
- case 34: /* BIN */
- switch (ptn->children[0]->prod_applied) {
- case 36: /* ADD */
- opcode = VP_OPCODE_ADD;
- break;
- case 37: /* DP3 */
- opcode = VP_OPCODE_DP3;
- break;
- case 38: /* DP4 */
- opcode = VP_OPCODE_DP4;
- break;
- case 39: /* DPH */
- opcode = VP_OPCODE_DPH;
- break;
- case 40: /* DST */
- opcode = VP_OPCODE_DST;
- break;
- case 41: /* MAX */
- opcode = VP_OPCODE_MAX;
- break;
- case 42: /* MIN */
- opcode = VP_OPCODE_MIN;
- break;
- case 43: /* MUL */
- opcode = VP_OPCODE_MUL;
- break;
- case 44: /* SGE */
- opcode = VP_OPCODE_SGE;
- break;
- case 45: /* SLT */
- opcode = VP_OPCODE_SLT;
- break;
- case 46: /* SUB */
- opcode = VP_OPCODE_SUB;
- break;
- case 47: /* XPD */
- opcode = VP_OPCODE_XPD;
- break;
- }
-
- printf("opcode: %d\n", opcode);
-
- /* maskedDstReg */
- dn = ptn->children[1];
- get_masked_dst_reg(s, dn, &dst, dst_mask);
- printf("dst: %d mask: %d %d %d %d\n", dst, dst_mask[0], dst_mask[1],
- dst_mask[2], dst_mask[3]);
-
- /* sn are scalarSrcReg's */
- sn[0] = ptn->children[2]->children[0];
- sn[1] = ptn->children[2]->children[1];
-
- get_swizzle_src_reg(s, sn[0], &src_sign[0], &src[0], src_swz[0]);
- get_swizzle_src_reg(s, sn[1], &src_sign[1], &src[1], src_swz[1]);
-
- printf("src0 sign: %d reg: %d swz: %d %d %d %d\n",
- src_sign[0], src[0], src_swz[0][0], src_swz[0][1], src_swz[0][2],
- src_swz[0][3]);
- printf("src1 sign: %d reg: %d swz: %d %d %d %d\n", src_sign[1], src[1],
- src_swz[1][0], src_swz[1][1], src_swz[1][2], src_swz[1][3]);
- break;
-
- case 48: /* TRI */
- opcode = VP_OPCODE_MAD;
-
- printf("opcode: %d\n", opcode);
-
- /* maskedDstReg */
- dn = ptn->children[1];
- get_masked_dst_reg(s, dn, &dst, dst_mask);
- printf("dst: %d mask: %d %d %d %d\n", dst, dst_mask[0], dst_mask[1],
- dst_mask[2], dst_mask[3]);
-
- /* sn are scalarSrcReg's */
- sn[0] = ptn->children[2]->children[0];
- sn[1] = ptn->children[2]->children[1]->children[0];
- sn[2] = ptn->children[2]->children[1]->children[1];
-
- get_swizzle_src_reg(s, sn[0], &src_sign[0], &src[0], src_swz[0]);
- get_swizzle_src_reg(s, sn[1], &src_sign[1], &src[1], src_swz[1]);
- get_swizzle_src_reg(s, sn[2], &src_sign[2], &src[2], src_swz[2]);
-
- printf("src0 sign: %d reg: %d swz: %d %d %d %d\n",
- src_sign[0], src[0], src_swz[0][0], src_swz[0][1], src_swz[0][2],
- src_swz[0][3]);
- printf("src1 sign: %d reg: %d swz: %d %d %d %d\n", src_sign[1], src[1],
- src_swz[1][0], src_swz[1][1], src_swz[1][2], src_swz[1][3]);
- printf("src2 sign: %d reg: %d swz: %d %d %d %d\n", src_sign[2], src[2],
- src_swz[2][0], src_swz[2][1], src_swz[2][2], src_swz[2][3]);
-
- }
-
- for (a = 0; a < 4; a++) {
- if (!ptn->children[a])
- return;
- parse_tree_generate_opcodes(s, ptn->children[a]);
- }
-}
-
-/**
- * When we go to examine the parse tree to generate opcodes, things are not exactly pretty to deal with.
- * Parameters, constants, matricies, attribute bindings, and the like are represented by large numbers
- * of nodes.
- *
- * In order to keep the code generation code cleaner, we make a recursive pass over the parse tree and 'roll up' these deep
- * derivations of the attribs, and replace them with a single token, BINDING_TOKEN. The token attribute for
- * BINDING_TOKEN is a index in the 'binding table' where all the relavant info on the chunk of state is stored,
- * e.g its type.
- *
- * For example, the string 'vertex.color.secondary' is represented by 4 productions, and 4 nodes in the parse
- * tree. The token at the root of this derivation is NT_VTX_ATTRIB_BINDING_TOKEN. After this folding,
- * the token at the root is BINDING_TOKEN, and s->binds[token_attr_at_the_root].type = ATTRIB_COLOR_SECONDARY.
- *
- * \param s The parse state
- * \param ptn The root parse tree node to start folding bindings
- */
-static void
-parse_tree_fold_bindings(parse_state * s, parse_tree_node * ptn)
-{
- GLint a, b;
- GLint eat_children, bind_type, bind_idx, bind_row, bind_nrows;
- GLfloat bind_vals[4];
- parse_tree_node *ptmp;
-
- eat_children = 0;
- bind_row = 0;
- bind_nrows = 1;
- bind_vals[0] = bind_vals[1] = bind_vals[2] = bind_vals[3] = 0.0f;
- switch (ptn->prod_applied) {
- /* vertex */
- case 121:
- eat_children = 1;
- bind_idx = 0;
- switch (ptn->children[0]->prod_applied) {
- case 122: /* position */
- bind_type = ATTRIB_POSITION;
- break;
- case 123: /* weight */
- bind_type = ATTRIB_WEIGHT;
- if (ptn->children[0]->children[0]->prod_applied == 132) {
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- children[0]->tok_attr];
- }
- break;
- case 124: /* normal */
- bind_type = ATTRIB_NORMAL;
- break;
- case 125: /* color */
- bind_type = ATTRIB_COLOR_PRIMARY;
- if (ptn->children[0]->children[0]->prod_applied == 306) {
- if (ptn->children[0]->children[0]->children[0]->prod_applied ==
- 309)
- bind_type = ATTRIB_COLOR_SECONDARY;
- }
- break;
- case 126: /* fogcoord */
- bind_type = ATTRIB_FOGCOORD;
- break;
- case 127: /* texcoord */
- bind_type = ATTRIB_TEXCOORD;
- if (ptn->children[0]->children[0]->prod_applied == 311) {
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- children[0]->tok_attr];
- }
- break;
- case 128: /* matrixindex */
- bind_type = ATTRIB_MATRIXINDEX;
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- tok_attr];
- break;
- case 129: /* attrib */
- bind_type = ATTRIB_ATTRIB;
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- tok_attr];
- break;
- }
- break;
-
- /* state */
- case 154:
- case 172: /* material */
- eat_children = 2;
- bind_idx = 0;
- ptmp = ptn->children[0]->children[0];
-
- a = 0;
- if (ptmp->prod_applied == 182) {
- a = 1;
- b = 0;
- }
- else
- if ((ptmp->prod_applied == 183)
- && (ptmp->children[0]->prod_applied == 305)) {
- a = 1;
- b = 1;
- }
-
- /* no explicit face, or explicit front */
- if (a) {
- switch (ptmp->children[b]->prod_applied) {
- case 184: /* ambient */
- bind_type = MATERIAL_FRONT_AMBIENT;
- break;
- case 185: /* diffuse */
- bind_type = MATERIAL_FRONT_DIFFUSE;
- break;
- case 186: /* specular */
- bind_type = MATERIAL_FRONT_SPECULAR;
- break;
- case 187: /* emission */
- bind_type = MATERIAL_FRONT_EMISSION;
- break;
- case 188: /* shininess */
- bind_type = MATERIAL_FRONT_SHININESS;
- break;
- }
- }
- /* has explicit back face */
- else {
- switch (ptmp->children[1]->prod_applied) {
- case 184: /* ambient */
- bind_type = MATERIAL_BACK_AMBIENT;
- break;
- case 185: /* diffuse */
- bind_type = MATERIAL_BACK_DIFFUSE;
- break;
- case 186: /* specular */
- bind_type = MATERIAL_BACK_SPECULAR;
- break;
- case 187: /* emission */
- bind_type = MATERIAL_BACK_EMISSION;
- break;
- case 188: /* shininess */
- bind_type = MATERIAL_BACK_SHININESS;
- break;
- }
- }
- break;
- case 155:
- case 173: /* light */
- eat_children = 2;
- bind_idx = 0;
- printf("FOLDING LIGHT!\n");
- ptmp = ptn->children[0];
- bind_idx = s->ints.data[ptmp->children[0]->children[0]->tok_attr];
- switch (ptmp->children[1]->children[0]->prod_applied) {
- case 191: /* ambient */
- bind_type = LIGHT_AMBIENT;
- break;
- case 192: /* diffuse */
- bind_type = LIGHT_DIFFUSE;
- break;
- case 193: /* specular */
- bind_type = LIGHT_SPECULAR;
- break;
- case 194: /* position */
- bind_type = LIGHT_POSITION;
- break;
- case 195: /* attenuation */
- bind_type = LIGHT_ATTENUATION;
- break;
- case 196: /* spot */
- bind_type = LIGHT_SPOT_DIRECTION;
- break;
- case 197: /* half */
- bind_type = LIGHT_HALF;
- break;
- }
- break;
-
- case 156:
- case 174: /* lightmodel */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- switch (ptmp->prod_applied) {
- case 201: /* ambient */
- bind_type = LIGHTMODEL_AMBIENT;
- break;
- case 202: /* scenecolor */
- bind_type = LIGHTMODEL_FRONT_SCENECOLOR;
- break;
- case 203: /* foo.scenecolor */
- if (ptmp->children[0]->prod_applied == 304)
- bind_type = LIGHTMODEL_FRONT_SCENECOLOR;
- else
- bind_type = LIGHTMODEL_BACK_SCENECOLOR;
- }
- break;
- case 157:
- case 175: /* lightprod */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- bind_idx = s->ints.data[ptmp->children[0]->children[0]->tok_attr];
- /* No explicit face */
- if (ptmp->children[1]->children[0]->prod_applied == 206) {
- a = 1; /* front */
- b = 0; /* 0-th child */
- }
- else
- if ((ptmp->children[1]->children[0]->prod_applied == 207) &&
- (ptmp->children[1]->children[0]->children[0]->prod_applied ==
- 304)) {
- a = 1; /* front */
- b = 1; /* 1-th child */
- }
- else {
- a = 0;
- b = 1;
- }
- if (a) {
- switch (ptmp->children[1]->children[0]->children[b]->prod_applied) {
- case 208: /* ambient */
- bind_type = LIGHTPROD_FRONT_AMBIENT;
- break;
- case 209: /* diffuse */
- bind_type = LIGHTPROD_FRONT_DIFFUSE;
- break;
- case 210: /* specular */
- bind_type = LIGHTPROD_FRONT_SPECULAR;
- break;
- }
- }
- else {
- switch (ptmp->children[1]->children[0]->children[b]->prod_applied) {
- case 208: /* ambient */
- bind_type = LIGHTPROD_BACK_AMBIENT;
- break;
- case 209: /* diffuse */
- bind_type = LIGHTPROD_BACK_DIFFUSE;
- break;
- case 210: /* specular */
- bind_type = LIGHTPROD_BACK_SPECULAR;
- break;
- }
- }
- break;
- case 158:
- case 176: /* texgen */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- if (ptmp->children[0]->prod_applied == 311)
- bind_idx =
- s->ints.data[ptmp->children[0]->children[0]->children[0]->
- tok_attr];
- ptmp = ptn->children[0]->children[1];
- if (ptmp->children[0]->prod_applied == 214)
- a = 1; /* eye */
- else
- a = 0; /* object */
- b = ptmp->children[1]->prod_applied - 216;
- if (a == 1) {
- switch (b) {
- case 0:
- bind_type = TEXGEN_EYE_S;
- break;
- case 1:
- bind_type = TEXGEN_EYE_T;
- break;
- case 2:
- bind_type = TEXGEN_EYE_R;
- break;
- case 3:
- bind_type = TEXGEN_EYE_Q;
- break;
- }
- }
- else {
- switch (b) {
- case 0:
- bind_type = TEXGEN_OBJECT_S;
- break;
- case 1:
- bind_type = TEXGEN_OBJECT_T;
- break;
- case 2:
- bind_type = TEXGEN_OBJECT_R;
- break;
- case 3:
- bind_type = TEXGEN_OBJECT_Q;
- break;
- }
- }
- break;
- case 159:
- case 177: /* fog */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- if (ptmp->children[0]->prod_applied == 221)
- bind_type = FOG_COLOR;
- else
- bind_type = FOG_PARAMS;
- break;
- case 160:
- case 178: /* clip */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- bind_idx = s->ints.data[ptmp->children[0]->children[0]->tok_attr];
- bind_type = CLIP_PLANE;
- break;
- case 161:
- case 179: /* point */
- eat_children = 2;
- bind_idx = 0;
-
- ptmp = ptn->children[0];
- if (ptmp->children[0]->prod_applied == 227)
- bind_type = POINT_SIZE;
- else
- bind_type = POINT_ATTENUATION;
- break;
-
- case 162: /* matrix rows/whole matrix */
- eat_children = 2;
- bind_idx = 0;
- {
- parse_tree_node *mname;
- GLint mod = 0;
- GLint name = 0;
-
- mname = ptn->children[0];
- switch (mname->prod_applied) {
- case 238: /* modelview */
- name = 0;
- if (mname->children[0]->prod_applied == 245)
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->children[0]->
- tok_attr];
- break;
- case 239: /* projection */
- name = 1;
- break;
- case 240: /* mvp */
- name = 2;
- break;
- case 241: /* texture */
- if (mname->children[0]->prod_applied == 311)
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->children[0]->
- tok_attr];
- name = 3;
- break;
- case 242: /* palette */
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->tok_attr];
- name = 4;
- break;
- case 243: /* program */
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->tok_attr];
- name = 5;
- break;
- }
-
- ptmp = ptn->children[1];
- if (ptmp->prod_applied == 316) {
- bind_type = name_and_mod_to_matrixrows(name, mod);
- bind_row = 0;
- bind_nrows = 4;
- }
- else {
- if (ptmp->children[0]->prod_applied == 164) {
- switch (ptmp->children[0]->children[0]->prod_applied) {
- case 234: /* inverse */
- mod = 1;
- break;
- case 235: /* transpose */
- mod = 3;
- break;
- case 236: /* invtrans */
- mod = 2;
- break;
- }
- if (ptmp->children[0]->children[1]->prod_applied == 166) {
- bind_type = name_and_mod_to_matrixrows(name, mod);
- bind_row = 0;
- bind_nrows = 4;
- }
- else { /* prod 167 */
-
- bind_type = name_and_mod_to_matrixrows(name, mod);
- bind_row =
- s->ints.data[ptmp->children[0]->children[1]->
- children[0]->children[0]->children[0]->
- tok_attr];
- if (ptmp->children[0]->children[1]->children[0]->
- children[1]->prod_applied == 169)
- bind_nrows = 1;
- else {
- bind_nrows =
- s->ints.data[ptmp->children[0]->children[1]->
- children[0]->children[1]->children[0]->
- children[0]->tok_attr] - bind_row + 1;
- }
- }
- }
- else { /* prod 165 */
-
- bind_type = name_and_mod_to_matrixrows(name, mod);
-
- bind_row =
- s->ints.data[ptmp->children[0]->children[0]->children[0]->
- tok_attr];
- if (ptmp->children[0]->children[1]->prod_applied == 169)
- bind_nrows = 1;
- else
- bind_nrows =
- s->ints.data[ptmp->children[0]->children[1]->
- children[0]->children[0]->tok_attr] -
- bind_row + 1;
- }
- }
- }
-
- printf("folding matrixrows: %d %d %d %d\n", bind_type, bind_idx,
- bind_row, bind_nrows);
- break;
-
- case 180: /* matrix row */
- eat_children = 2;
- bind_idx = 0;
-
- {
- GLint mod;
- parse_tree_node *mname, *mrow;
-
- ptmp = ptn->children[0];
- mname = ptmp->children[0];
- mod = 0;
- if (ptmp->children[1]->children[0]->prod_applied == 232) {
- mrow =
- ptmp->children[1]->children[0]->children[1]->children[0]->
- children[0];
- switch (ptmp->children[1]->children[0]->children[0]->prod_applied) {
- case 234:
- mod = 1; /* inverse */
- break;
- case 235:
- mod = 2; /* transpose */
- break;
- case 236:
- mod = 3; /* invtrans */
- break;
- }
- }
- else {
- mrow = ptmp->children[1]->children[0]->children[0]->children[0];
- }
- bind_row = s->ints.data[mrow->tok_attr];
-
- switch (mname->prod_applied) {
- case 238: /* modelview */
- if (mname->children[0]->prod_applied == 245) {
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->children[0]->
- tok_attr];
- }
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_MODELVIEW;
- break;
- case 1:
- bind_type = MATRIXROW_MODELVIEW_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_MODELVIEW_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_MODELVIEW_INVTRANS;
- }
- break;
-
- case 239: /* projection */
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_PROJECTION;
- break;
- case 1:
- bind_type = MATRIXROW_PROJECTION_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_PROJECTION_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_PROJECTION_INVTRANS;
- }
- break;
-
- case 240: /* mvp */
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_MVP;
- break;
- case 1:
- bind_type = MATRIXROW_MVP_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_MVP_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_MVP_INVTRANS;
- }
- break;
-
- case 241: /* texture */
- if (mname->children[0]->prod_applied == 311) {
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->children[0]->
- tok_attr];
- }
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_TEXTURE;
- break;
- case 1:
- bind_type = MATRIXROW_TEXTURE_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_TEXTURE_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_TEXTURE_INVTRANS;
- }
- break;
-
- case 242: /* palette */
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->tok_attr];
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_PALETTE;
- break;
- case 1:
- bind_type = MATRIXROW_PALETTE_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_PALETTE_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_PALETTE_INVTRANS;
- }
- break;
-
- case 243: /* program */
- bind_idx =
- s->ints.data[mname->children[0]->children[0]->tok_attr];
- switch (mod) {
- case 0:
- bind_type = MATRIXROW_PROGRAM;
- break;
- case 1:
- bind_type = MATRIXROW_PROGRAM_INVERSE;
- break;
- case 2:
- bind_type = MATRIXROW_PROGRAM_TRANSPOSE;
- break;
- case 3:
- bind_type = MATRIXROW_PROGRAM_INVTRANS;
- }
- break;
- }
- }
- break;
-
- /* program (single) */
- case 249:
- eat_children = 1;
- bind_idx = 0;
- switch (ptn->children[0]->prod_applied) {
- case 250: /* env */
- bind_type = PROGRAM_ENV_SINGLE;
- break;
- case 251: /* local */
- bind_type = PROGRAM_LOCAL_SINGLE;
- break;
- }
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- children[0]->tok_attr];
- break;
-
- /* program (multi) */
- case 252:
- eat_children = 1;
- bind_idx = 0;
- switch (ptn->children[0]->prod_applied) {
- case 253: /* env */
- case 254: /* local */
- if (ptn->children[0]->prod_applied == 253)
- bind_type = PROGRAM_ENV_MULTI;
- else
- bind_type = PROGRAM_LOCAL_MULTI;
-
- ptmp = ptn->children[0]->children[0]->children[0];
- bind_idx = bind_row =
- s->ints.data[ptmp->children[0]->children[0]->tok_attr];
- bind_nrows = 1;
-
- ptmp = ptn->children[0]->children[0]->children[0]->children[1];
- if ((ptmp->prod_applied == 257) || (ptmp->prod_applied == 262))
- bind_nrows =
- s->ints.data[ptmp->children[0]->children[0]->tok_attr] -
- bind_idx;
- break;
- }
- break;
-
-#define FOLD_FLOAT_CONSTANT(float_ptr, bind_vals_idx, sign) \
- if (float_ptr->tok == 49) /* GLfloat */ {\
- bind_vals[bind_vals_idx] = sign * (GLfloat) s->floats.data[float_ptr->tok_attr];\
- }\
- else /* GLint */ {\
- bind_vals[bind_vals_idx] = sign * s->ints.data[float_ptr->tok_attr];\
- }
-
-#define FOLD_SIGNED_FLOAT_CONSTANT(sf_ptr, bind_vals_idx) \
- {\
- GLfloat __mul = 1.0F;\
- if (sf_ptr->children[0]->prod_applied == 282) \
- __mul = -1.0F;\
- FOLD_FLOAT_CONSTANT(sf_ptr->children[1], bind_vals_idx, __mul);\
- }
-
- /* const scalar decl */
- case 271:
- eat_children = 1;
- bind_idx = 0;
- bind_type = CONSTANT;
-
- FOLD_SIGNED_FLOAT_CONSTANT(ptn->children[0], 0);
-#if 0
- {
- GLfloat mul = 1.;
- if (ptn->children[0]->children[0]->prod_applied == 282) {
- mul = -1;
- }
-
- FOLD_FLOAT_CONSTANT(ptn->children[0]->children[1], 0, mul);
- }
-#endif
- break;
-
- /* const vector */
- case 273:
- eat_children = 1;
- bind_idx = 0;
- bind_type = CONSTANT;
-
- FOLD_SIGNED_FLOAT_CONSTANT(ptn->children[0], 0);
- if (ptn->children[1]->prod_applied == 275) {
- FOLD_SIGNED_FLOAT_CONSTANT(ptn->children[1]->children[0], 1);
- if (ptn->children[1]->children[1]->prod_applied == 277) {
- FOLD_SIGNED_FLOAT_CONSTANT(ptn->children[1]->children[1]->
- children[0], 2);
- if (ptn->children[1]->children[1]->children[1]->prod_applied ==
- 279) {
- FOLD_SIGNED_FLOAT_CONSTANT(ptn->children[1]->children[1]->
- children[1]->children[0], 3);
- }
- }
- }
- break;
-
- /* result */
- case 289:
- eat_children = 1;
- bind_idx = 0;
- switch (ptn->children[0]->prod_applied) {
- case 290: /* position */
- bind_type = RESULT_POSITION;
- break;
- case 291: /* fogcoord */
- bind_type = RESULT_FOGCOORD;
- break;
- case 292: /* pointsize */
- bind_type = RESULT_POINTSIZE;
- break;
- case 293: /* color */
- bind_type = RESULT_COLOR_FRONT_PRIMARY;
- ptmp = ptn->children[0]->children[0]->children[0];
- if (ptmp->prod_applied == 297) {
- if (ptmp->children[0]->prod_applied == 298) { /* front */
- if (ptmp->children[0]->children[0]->prod_applied == 301) {
- if (ptmp->children[0]->children[0]->children[0]->prod_applied == 303) /* secondary */
- bind_type = RESULT_COLOR_FRONT_SECONDARY;
- }
- }
- else { /* back */
-
- bind_type = RESULT_COLOR_BACK_PRIMARY;
- if (ptmp->children[0]->children[0]->prod_applied == 301) {
- if (ptmp->children[0]->children[0]->children[0]->prod_applied == 303) /* secondary */
- bind_type = RESULT_COLOR_BACK_SECONDARY;
- }
-
- }
- }
- break;
- case 294: /* texcoord */
- bind_type = RESULT_TEXCOORD;
- if (ptn->children[0]->children[0]->prod_applied == 311) {
- bind_idx =
- s->ints.data[ptn->children[0]->children[0]->children[0]->
- children[0]->tok_attr];
- }
- break;
- }
- break;
- }
-
- /* Mmmmm... baaaaby */
- if (eat_children) {
- if (eat_children == 2)
- parse_tree_free_children(ptn->children[0]);
- else
- parse_tree_free_children(ptn);
-
- /* Insert the binding into the binding table */
- ptn->tok = BINDING_TOKEN;
- ptn->tok_attr =
- binding_table_add(&s->binds, bind_type, bind_idx, bind_row,
- bind_nrows, bind_vals);
-
- printf("Got binding %d %d %d %d at pos %d in bind tab [%f %f %f %f]\n",
- bind_type, bind_idx, bind_row, bind_nrows, ptn->tok_attr,
- bind_vals[0], bind_vals[1], bind_vals[2], bind_vals[3]);
- }
-
-
- for (a = 0; a < 4; a++) {
- if (!ptn->children[a])
- return;
-
- parse_tree_fold_bindings(s, ptn->children[a]);
- }
-}
-
-/**
- * After we have figured out what mess of parse tree actually represents GL state (or constants, or
- * whatnot), we have to line up variables with the state. For example, a line something like
- *
- * OUTPUT foo = result.position;
- *
- * We would have 'foo' in the identifier table at some position foo_idx, and 'result.position' in the
- * binding table at some position res_pos_idx. To set things up such that 'foo' is associated with
- * the result position state, we need to set ident[foo_idx].attr = res_pos_idx so we can generate
- * opcodes without going bonkers.
- *
- * This function works on OUTPUT, ATTRIB, and PARAM single bindings. PARAM array bindings are handled in
- * parse_tree_assign_param_arrays().
- *
- * \param s The parse state
- * \param ptn The root of the parse tree from which to start lining up state and variables
- */
-static void
-parse_tree_assign_bindings(parse_state * s, parse_tree_node * ptn)
-{
- GLint a;
- parse_tree_node *var_name, *attr_item;
-
- /* OUTPUT, ATTRIB */
- if ((ptn->prod_applied == 288) || (ptn->prod_applied == 120)) {
- var_name = ptn->children[0]->children[0];
- attr_item = ptn->children[1];
-
- if (attr_item->tok != BINDING_TOKEN) {
- fprintf(stderr,
- "sanity check: trying to bind an output variable to something funky!\n");
- return;
- }
-
- s->idents.attr[var_name->tok_attr] = attr_item->tok_attr;
- printf("result: %s bound to %d\n", s->idents.data[var_name->tok_attr],
- s->binds.type[s->idents.attr[var_name->tok_attr]]);
- return;
- }
-
- /* stateSingleItemDecl */
- if (ptn->prod_applied == 134) {
- var_name = ptn->children[0]->children[0];
- if (ptn->children[1]->prod_applied == 135) {
- if (ptn->children[1]->children[0]->prod_applied == 139) {
- if (ptn->children[1]->children[0]->children[0]->prod_applied ==
- 144)
- attr_item =
- ptn->children[1]->children[0]->children[0]->children[0]->
- children[0];
- else if (ptn->children[1]->children[0]->children[0]->
- prod_applied == 145)
- attr_item =
- ptn->children[1]->children[0]->children[0]->children[0];
- else
- attr_item =
- ptn->children[1]->children[0]->children[0]->children[0]->
- children[0];
-
- if (attr_item->tok != BINDING_TOKEN) {
- fprintf(stderr,
- "sanity check: trying to bind an param variable (%s) to something funky! [%d]\n",
- s->idents.data[var_name->tok_attr], attr_item->tok);
- exit(1);
- }
-
- s->idents.attr[var_name->tok_attr] = attr_item->tok_attr;
- printf("result: %s bound to %d\n",
- s->idents.data[var_name->tok_attr],
- s->binds.type[s->idents.attr[var_name->tok_attr]]);
- return;
- }
- }
-
- }
-
- /* else, recurse on all our children */
- for (a = 0; a < 4; a++) {
- if (!ptn->children[a])
- return;
-
- parse_tree_assign_bindings(s, ptn->children[a]);
- }
-
-}
-
-/**
- * This handles lining up PARAM arrays with variables, much like parse_tree_assign_bindings().
- *
- * In parse_tree_assign_bindings, we set the identifier attr to the index into the binding table of
- * the bound state.
- *
- * Here, instead, we allocate a slot in the 'array table' to stick the bound state into. Instead
- * of an index into the binding table, the identifier attr now holds the index into the array table.
- *
- * \param s The parse state
- * \param pnt The root parse tree node to handle arrays from
- *
- */
-static void
-parse_tree_assign_param_arrays(parse_state * s, parse_tree_node * ptn)
-{
- GLint a, is_mult, array_len;
- parse_tree_node *var_name, *binding, *arraysize, *ptmp;
-
- /* If we're a param */
- if (ptn->prod_applied == 134) {
- /* establish name */
- var_name = ptn->children[0];
-
- /* param_statement2 */
- binding = ptn->children[1];
- if (binding->prod_applied == 136) {
- /* optarraysize */
- arraysize = binding->children[0];
-
- is_mult = 0;
-
- /* foo[3] */
- if (arraysize->prod_applied == 138) {
- debug_token(s, var_name->children[0]->tok,
- var_name->children[0]->tok_attr);
- debug_token(s, arraysize->children[0]->tok,
- arraysize->children[0]->tok_attr);
- printf("\n");
- is_mult = 1;
- }
- else
- /* foo[] */
- if (arraysize->prod_applied == 137) {
- arraysize = NULL;
- printf("How do I init a PARAM array like foo[]?? \n");
- is_mult = 1;
- }
-
- if (!is_mult)
- return;
-
- s->idents.attr[var_name->tok_attr] = array_table_new(&s->arrays);
-
- binding = binding->children[1]->children[0];
- ptmp = binding->children[0];
- array_len = 0;
-
- if (ptmp->prod_applied == 150) { /* state */
- printf("matrix 0 [state]:\n");
- printf("%d %d\n", ptmp->children[0]->children[0]->tok,
- ptmp->children[0]->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->children[0]->tok_attr);
- array_len +=
- s->binds.num_rows[ptmp->children[0]->children[0]->tok_attr];
- }
- else if (ptmp->prod_applied == 151) { /* program */
- printf("matrix 0 [program]:\n");
- printf("%d %d\n", ptmp->children[0]->tok,
- ptmp->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->tok_attr);
- array_len += s->binds.num_rows[ptmp->children[0]->tok_attr];
- }
- else { /* constant */
-
- printf("matrix 0 [constant]:\n");
- printf("%d %d\n", ptmp->children[0]->children[0]->tok,
- ptmp->children[0]->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->children[0]->tok_attr);
- array_len +=
- s->binds.num_rows[ptmp->children[0]->children[0]->tok_attr];
- }
- binding = binding->children[1];
-
- while (binding->prod_applied != 143) {
- ptmp = binding->children[0]->children[0];
- printf("mat: %d\n", ptmp->prod_applied);
- if (ptmp->prod_applied == 150) { /* state */
- printf("matrix %d:\n", array_len);
- printf("%d %d\n", ptmp->children[0]->children[0]->tok,
- ptmp->children[0]->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->children[0]->tok_attr);
- array_len +=
- s->binds.num_rows[ptmp->children[0]->children[0]->tok_attr];
- }
- else if (ptmp->prod_applied == 151) { /* program */
- printf("matrix %d [program]:\n", array_len);
- printf("%d %d\n", ptmp->children[0]->tok,
- ptmp->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->tok_attr);
- array_len += s->binds.num_rows[ptmp->children[0]->tok_attr];
- }
- else { /* constant */
-
- printf("matrix %d [constant]:\n", array_len);
- printf("%d %d\n", ptmp->children[0]->children[0]->tok,
- ptmp->children[0]->children[0]->tok_attr);
- array_table_add_data(&s->arrays,
- s->idents.attr[var_name->tok_attr],
- ptmp->children[0]->children[0]->tok_attr);
- array_len +=
- s->binds.num_rows[ptmp->children[0]->children[0]->tok_attr];
- }
- binding = binding->children[0]->children[1];
- }
-
- /* XXX: have to compare the requested size, and the actual
- * size, and fix up any inconsistancies
- */
- if (arraysize) {
- printf("matrix wants to get %d rows\n",
- s->ints.data[arraysize->children[0]->tok_attr]);
- }
- printf("matrix num rows: %d\n", array_len);
- }
-
- return;
- }
-
- /* Else, recurse on all our children */
- for (a = 0; a < 4; a++) {
- if (!ptn->children[a])
- return;
-
- parse_tree_assign_param_arrays(s, ptn->children[a]);
- }
-
-}
-
-/* XXX: This needs to be written properly. */
-/**
- * Here we allocate 'registers' for all of the various variables and bound state.
- *
- * The 'register' number is given by the reg_num field in the binding table. Note that this field
- * is not stored in the identifier table. If it were, we would need a different mechanism for handling
- * implicit bindings.
- *
- * However, after some discussion with Brian, implicit bindings may be handled by grabbing state
- * directly from Mesa's state structs. This might be a little hairy here, maybe not.. Implicit
- * bindings are those in the binding table that are not pointed to by any ident.attr or array.data
- *
- * This should also do various error checking, like the multiple vertex attrib error, or 'too many bindings'
- * error.
- *
- * \param s The parse state
- */
-static void
-assign_regs(parse_state * s)
-{
- GLint a;
- GLfloat foo[4];
-
- for (a = 0; a < s->idents.len; a++) {
- if (s->idents.type[a] == TYPE_TEMP) {
- s->idents.attr[a] =
- binding_table_add(&s->binds, TYPE_TEMP, 0, 0, 0, foo);
- }
- }
-}
-
-/**
- * Parse/compile the 'str' returning the compiled 'program'.
- * ctx->Program.ErrorPos will be -1 if successful. Otherwise, ErrorPos
- * indicates the position of the error in 'str'.
- */
void
_mesa_parse_arb_vertex_program(GLcontext * ctx, GLenum target,
- const GLubyte * string, GLsizei len,
+ const GLubyte * str, GLsizei len,
struct vertex_program *program)
{
- GLubyte *our_string;
- parse_state *state;
-
- /* XXX: How do I handle these errors? */
- if (len < 10 || _mesa_strncmp((const char *) string, "!!ARBvp1.0", 10)) {
- ctx->Program.ErrorPos = 0;
- _mesa_error(ctx, GL_INVALID_OPERATION, "glProgramStringARB(bad header)");
- return;
- }
+ GLuint retval;
+ struct arb_program ap;
+
+ retval = _mesa_parse_arb_program(ctx, str, len, &ap);
- /* Make a null-terminated copy of the program string */
- our_string = (GLubyte *) MALLOC(len + 1);
- if (!our_string) {
- _mesa_error(ctx, GL_OUT_OF_MEMORY, "glProgramStringARB");
+ /* XXX: Parse error. Cleanup things and return */
+ if (retval)
+ {
return;
}
- MEMCPY(our_string, string, len);
- our_string[len] = 0;
- state = parse_state_init(our_string + 10, _mesa_strlen((char *) our_string) - 10);
-
- if (parse(state) == ARB_VP_SUCESS) {
- printf("parse sucess!\n");
- }
- else {
- printf("*** error\n");
- parse_state_cleanup(state);
- return;
- }
-
- /* First, we 'fold' bindings from a big mess of productions and
- * tokens into one BINDING_TOKEN, which points to an entry
- * in the binding sym table that holds all of the relevant
- * info for the binding destination.
- */
- parse_tree_fold_bindings(state, state->pt_head);
-
- /* Now, for each type of binding, walk the parse tree and stick
- * the index into the binding sym table
- */
- parse_tree_assign_bindings(state, state->pt_head);
-
- /* XXX: this still needs a' fixin to get folded bindings
- * -- it does? wtf do I mean? */
- parse_tree_assign_param_arrays(state, state->pt_head);
-
- /* XXX: Now, assign registers. For this, we'll need to create
- * bindings for all temps (and what else?? )
- */
- assign_regs(state);
-
- /* Ok, now generate code */
- parse_tree_generate_opcodes(state, state->pt_head);
-
- /* Just for testing.. */
- program->Base.Target = target;
- if (program->Base.String) {
- FREE(program->Base.String);
+ /* XXX: Eh.. we parsed something that wasn't a vertex program. doh! */
+ if (ap.type != GL_VERTEX_PROGRAM_ARB)
+ {
+ return;
}
- program->Base.String = our_string;
- program->Base.Format = GL_PROGRAM_FORMAT_ASCII_ARB;
-
- if (program->Instructions) {
- FREE(program->Instructions);
- }
-
- program->Instructions =
- (struct vp_instruction *) _mesa_malloc(sizeof(struct vp_instruction));
- program->Instructions[0].Opcode = VP_OPCODE_END;
- program->InputsRead = 0;
- program->OutputsWritten = 0;
- program->IsPositionInvariant = 0;
-
- parse_state_cleanup(state);
+
+#if DEBUG_VP
+ debug_vp_inst(ap.Base.NumInstructions, ap.VPInstructions);
+#endif
- /* TODO:
- * - handle implicit state grabbing & register allocation like discussed
- * - implicit param declarations -- see above
- *
- * - variable bindings -- ADDRESS
- * - deal with explicit array sizes & size mismatches
- * - shuddup all my debugging crap
- * - grep for XXX
- * - multiple vtx attrib binding error
- * - What do I do on look ahead for prod 54 & 55? (see arbvp_grammar.txt)
- * - misc errors
- * - check integer ranges
- * - check array index ranges
- * - check variable counts
- * - param register allocation
- * - exercise swizzles and masks
- * - error handling
- * - generate opcodes
- * + Get addres registers for relative offsets in PARAM arrays
- * + Properly encode implicit PARAMs and ATTRIBs.
- * + ARL
- * + SWZ
- * + actually emit Mesa opcodes
- * - segfaults while freeing stuff
- * - OPTION
+ /* copy the relvant contents of the arb_program struct into the
+ * fragment_program struct
*/
+ program->Base.NumInstructions = ap.Base.NumInstructions;
+ program->Base.NumTemporaries = ap.Base.NumTemporaries;
+ program->Base.NumParameters = ap.Base.NumParameters;
+ program->Base.NumAttributes = ap.Base.NumAttributes;
+ program->Base.NumAddressRegs = ap.Base.NumAddressRegs;
+
+ program->Instructions = ap.VPInstructions;
+ program->IsPositionInvariant = ap.HintPositionInvariant;
+ program->InputsRead = ap.InputsRead;
+ program->OutputsWritten = ap.OutputsWritten;
+ program->Parameters = ap.Parameters;
}