/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA See file, 'COPYING', for details. */ // this file is shared by QuakeForge and qfcc #ifndef __QF_pr_comp_h #define __QF_pr_comp_h #include "QF/qtypes.h" typedef int32_t pr_string_t __attribute__((aligned(4))); typedef float pr_float_t __attribute__((aligned(4))); typedef float pr_vector_t[3] __attribute__((aligned(4))); typedef uint32_t pr_entity_t __attribute__((aligned(4))); typedef uint32_t pr_field_t __attribute__((aligned(4))); typedef uint32_t pr_func_t __attribute__((aligned(4))); typedef uint32_t pr_ptr_t __attribute__((aligned(4))); typedef float pr_quaternion_t[4] __attribute__((aligned(4))); typedef int32_t pr_int_t __attribute__((aligned(4))); typedef uint32_t pr_uint_t __attribute__((aligned(4))); typedef int16_t pr_short_t __attribute__((aligned(2))); typedef double pr_double_t __attribute__((aligned(8))); typedef int64_t pr_long_t __attribute__((aligned(8))); typedef uint64_t pr_ulong_t __attribute__((aligned(8))); typedef uint16_t pr_ushort_t __attribute__((aligned(2)));; #define PR_PTR(t, p) (*(pr_##t##_t *) (p)) #define PR_VEC_TYPE(t,n,s) \ typedef t n __attribute__ ((vector_size (s*sizeof (t)))) PR_VEC_TYPE (pr_int_t, pr_ivec2_t, 2); typedef pr_int_t pr_ivec3_t[3]; PR_VEC_TYPE (pr_int_t, pr_ivec4_t, 4); PR_VEC_TYPE (pr_uint_t, pr_uivec2_t, 2); typedef pr_uint_t pr_uivec3_t[3]; PR_VEC_TYPE (pr_uint_t, pr_uivec4_t, 4); PR_VEC_TYPE (float, pr_vec2_t, 2); typedef pr_float_t pr_vec3_t[3]; PR_VEC_TYPE (float, pr_vec4_t, 4); PR_VEC_TYPE (pr_long_t, pr_lvec2_t, 2); typedef pr_long_t pr_lvec3_t[3]; PR_VEC_TYPE (pr_long_t, pr_lvec4_t, 4); PR_VEC_TYPE (pr_ulong_t, pr_ulvec2_t, 2); typedef pr_ulong_t pr_ulvec3_t[3]; PR_VEC_TYPE (pr_ulong_t, pr_ulvec4_t, 4); PR_VEC_TYPE (double, pr_dvec2_t, 2); typedef pr_double_t pr_dvec3_t[3]; PR_VEC_TYPE (double, pr_dvec4_t, 4); #define EV_TYPE(type) ev_##type, typedef enum { #include "QF/progs/pr_type_names.h" ev_invalid, // invalid type. used for instruction checking ev_type_count // not a type, gives number of types } etype_t; #define PR_SIZEOF(type) (sizeof (pr_##type##_t) / (sizeof (pr_int_t))) #define PR_ALIGNOF(type) (__alignof__ (pr_##type##_t) / __alignof__ (pr_int_t)) extern const pr_ushort_t pr_type_size[ev_type_count]; extern const pr_ushort_t pr_type_alignment[ev_type_count]; extern const char * const pr_type_name[ev_type_count]; #define OFS_NULL 0 #define OFS_RETURN 1 #define OFS_PARM0 4 // leave 3 ofs for each parm to hold vectors #define OFS_PARM1 7 #define OFS_PARM2 10 #define OFS_PARM3 13 #define OFS_PARM4 16 #define OFS_PARM5 19 #define OFS_PARM6 22 #define OFS_PARM7 25 #define RESERVED_OFS 28 typedef enum { OP_DONE_v6p, OP_MUL_F_v6p, OP_MUL_V_v6p, OP_MUL_FV_v6p, OP_MUL_VF_v6p, OP_DIV_F_v6p, OP_ADD_F_v6p, OP_ADD_V_v6p, OP_SUB_F_v6p, OP_SUB_V_v6p, OP_EQ_F_v6p, OP_EQ_V_v6p, OP_EQ_S_v6p, OP_EQ_E_v6p, OP_EQ_FN_v6p, OP_NE_F_v6p, OP_NE_V_v6p, OP_NE_S_v6p, OP_NE_E_v6p, OP_NE_FN_v6p, OP_LE_F_v6p, OP_GE_F_v6p, OP_LT_F_v6p, OP_GT_F_v6p, OP_LOAD_F_v6p, OP_LOAD_V_v6p, OP_LOAD_S_v6p, OP_LOAD_ENT_v6p, OP_LOAD_FLD_v6p, OP_LOAD_FN_v6p, OP_ADDRESS_v6p, OP_STORE_F_v6p, OP_STORE_V_v6p, OP_STORE_S_v6p, OP_STORE_ENT_v6p, OP_STORE_FLD_v6p, OP_STORE_FN_v6p, OP_STOREP_F_v6p, OP_STOREP_V_v6p, OP_STOREP_S_v6p, OP_STOREP_ENT_v6p, OP_STOREP_FLD_v6p, OP_STOREP_FN_v6p, OP_RETURN_v6p, OP_NOT_F_v6p, OP_NOT_V_v6p, OP_NOT_S_v6p, OP_NOT_ENT_v6p, OP_NOT_FN_v6p, OP_IF_v6p, OP_IFNOT_v6p, OP_CALL0_v6p, OP_CALL1_v6p, OP_CALL2_v6p, OP_CALL3_v6p, OP_CALL4_v6p, OP_CALL5_v6p, OP_CALL6_v6p, OP_CALL7_v6p, OP_CALL8_v6p, OP_STATE_v6p, OP_GOTO_v6p, OP_AND_v6p, OP_OR_v6p, OP_BITAND_v6p, OP_BITOR_v6p, // end of v6 opcodes OP_ADD_S_v6p, OP_LE_S_v6p, OP_GE_S_v6p, OP_LT_S_v6p, OP_GT_S_v6p, OP_ADD_I_v6p, OP_SUB_I_v6p, OP_MUL_I_v6p, OP_DIV_I_v6p, OP_BITAND_I_v6p, OP_BITOR_I_v6p, OP_GE_I_v6p, OP_LE_I_v6p, OP_GT_I_v6p, OP_LT_I_v6p, OP_AND_I_v6p, OP_OR_I_v6p, OP_NOT_I_v6p, OP_EQ_I_v6p, OP_NE_I_v6p, OP_STORE_I_v6p, OP_STOREP_I_v6p, OP_LOAD_I_v6p, OP_CONV_IF_v6p, OP_CONV_FI_v6p, OP_BITXOR_F_v6p, OP_BITXOR_I_v6p, OP_BITNOT_F_v6p, OP_BITNOT_I_v6p, OP_SHL_F_v6p, OP_SHR_F_v6p, OP_SHL_I_v6p, OP_SHR_I_v6p, OP_REM_F_v6p, OP_REM_I_v6p, OP_LOADB_F_v6p, OP_LOADB_V_v6p, OP_LOADB_S_v6p, OP_LOADB_ENT_v6p, OP_LOADB_FLD_v6p, OP_LOADB_FN_v6p, OP_LOADB_I_v6p, OP_LOADB_P_v6p, OP_STOREB_F_v6p, OP_STOREB_V_v6p, OP_STOREB_S_v6p, OP_STOREB_ENT_v6p, OP_STOREB_FLD_v6p, OP_STOREB_FN_v6p, OP_STOREB_I_v6p, OP_STOREB_P_v6p, OP_ADDRESS_VOID_v6p, OP_ADDRESS_F_v6p, OP_ADDRESS_V_v6p, OP_ADDRESS_S_v6p, OP_ADDRESS_ENT_v6p, OP_ADDRESS_FLD_v6p, OP_ADDRESS_FN_v6p, OP_ADDRESS_I_v6p, OP_ADDRESS_P_v6p, OP_LEA_v6p, OP_IFBE_v6p, OP_IFB_v6p, OP_IFAE_v6p, OP_IFA_v6p, OP_JUMP_v6p, OP_JUMPB_v6p, OP_LT_U_v6p, OP_GT_U_v6p, OP_LE_U_v6p, OP_GE_U_v6p, OP_LOADBI_F_v6p, OP_LOADBI_V_v6p, OP_LOADBI_S_v6p, OP_LOADBI_ENT_v6p, OP_LOADBI_FLD_v6p, OP_LOADBI_FN_v6p, OP_LOADBI_I_v6p, OP_LOADBI_P_v6p, OP_STOREBI_F_v6p, OP_STOREBI_V_v6p, OP_STOREBI_S_v6p, OP_STOREBI_ENT_v6p, OP_STOREBI_FLD_v6p, OP_STOREBI_FN_v6p, OP_STOREBI_I_v6p, OP_STOREBI_P_v6p, OP_LEAI_v6p, OP_LOAD_P_v6p, OP_STORE_P_v6p, OP_STOREP_P_v6p, OP_NOT_P_v6p, OP_EQ_P_v6p, OP_NE_P_v6p, OP_LE_P_v6p, OP_GE_P_v6p, OP_LT_P_v6p, OP_GT_P_v6p, OP_MOVEI_v6p, OP_MOVEP_v6p, OP_MOVEPI_v6p, OP_SHR_U_v6p, OP_STATE_F_v6p, OP_ADD_Q_v6p, OP_SUB_Q_v6p, OP_MUL_Q_v6p, OP_MUL_QF_v6p, OP_MUL_FQ_v6p, OP_MUL_QV_v6p, OP_CONJ_Q_v6p, OP_NOT_Q_v6p, OP_EQ_Q_v6p, OP_NE_Q_v6p, OP_STORE_Q_v6p, OP_STOREB_Q_v6p, OP_STOREBI_Q_v6p, OP_STOREP_Q_v6p, OP_LOAD_Q_v6p, OP_LOADB_Q_v6p, OP_LOADBI_Q_v6p, OP_ADDRESS_Q_v6p, OP_RCALL0_v6p, OP_RCALL1_v6p, OP_RCALL2_v6p, OP_RCALL3_v6p, OP_RCALL4_v6p, OP_RCALL5_v6p, OP_RCALL6_v6p, OP_RCALL7_v6p, OP_RCALL8_v6p, OP_RETURN_V_v6p, OP_PUSH_S_v6p, OP_PUSH_F_v6p, OP_PUSH_V_v6p, OP_PUSH_ENT_v6p, OP_PUSH_FLD_v6p, OP_PUSH_FN_v6p, OP_PUSH_P_v6p, OP_PUSH_Q_v6p, OP_PUSH_I_v6p, OP_PUSH_D_v6p, OP_PUSHB_S_v6p, OP_PUSHB_F_v6p, OP_PUSHB_V_v6p, OP_PUSHB_ENT_v6p, OP_PUSHB_FLD_v6p, OP_PUSHB_FN_v6p, OP_PUSHB_P_v6p, OP_PUSHB_Q_v6p, OP_PUSHB_I_v6p, OP_PUSHB_D_v6p, OP_PUSHBI_S_v6p, OP_PUSHBI_F_v6p, OP_PUSHBI_V_v6p, OP_PUSHBI_ENT_v6p, OP_PUSHBI_FLD_v6p, OP_PUSHBI_FN_v6p, OP_PUSHBI_P_v6p, OP_PUSHBI_Q_v6p, OP_PUSHBI_I_v6p, OP_PUSHBI_D_v6p, OP_POP_S_v6p, OP_POP_F_v6p, OP_POP_V_v6p, OP_POP_ENT_v6p, OP_POP_FLD_v6p, OP_POP_FN_v6p, OP_POP_P_v6p, OP_POP_Q_v6p, OP_POP_I_v6p, OP_POP_D_v6p, OP_POPB_S_v6p, OP_POPB_F_v6p, OP_POPB_V_v6p, OP_POPB_ENT_v6p, OP_POPB_FLD_v6p, OP_POPB_FN_v6p, OP_POPB_P_v6p, OP_POPB_Q_v6p, OP_POPB_I_v6p, OP_POPB_D_v6p, OP_POPBI_S_v6p, OP_POPBI_F_v6p, OP_POPBI_V_v6p, OP_POPBI_ENT_v6p, OP_POPBI_FLD_v6p, OP_POPBI_FN_v6p, OP_POPBI_P_v6p, OP_POPBI_Q_v6p, OP_POPBI_I_v6p, OP_POPBI_D_v6p, OP_ADD_D_v6p, OP_SUB_D_v6p, OP_MUL_D_v6p, OP_MUL_QD_v6p, OP_MUL_DQ_v6p, OP_MUL_VD_v6p, OP_MUL_DV_v6p, OP_DIV_D_v6p, OP_REM_D_v6p, OP_GE_D_v6p, OP_LE_D_v6p, OP_GT_D_v6p, OP_LT_D_v6p, OP_NOT_D_v6p, OP_EQ_D_v6p, OP_NE_D_v6p, OP_CONV_FD_v6p, OP_CONV_DF_v6p, OP_CONV_ID_v6p, OP_CONV_DI_v6p, OP_STORE_D_v6p, OP_STOREB_D_v6p, OP_STOREBI_D_v6p, OP_STOREP_D_v6p, OP_LOAD_D_v6p, OP_LOADB_D_v6p, OP_LOADBI_D_v6p, OP_ADDRESS_D_v6p, OP_MOD_I_v6p, OP_MOD_F_v6p, OP_MOD_D_v6p, OP_MEMSETI_v6p, OP_MEMSETP_v6p, OP_MEMSETPI_v6p, } pr_opcode_v6p_e; #define OP_BREAK 0x8000 typedef enum { #ifndef IN_DOXYGEN #include "QF/progs/pr_opcode.hinc" #endif } pr_opcode_e; // Used for both branch and comparison, with jump and call being ignored for // comparison. For branches, the test is against zero, while for comparison, // it's a cmp b (where cmp takes the place of "branch" in the enum names). typedef enum { pr_branch_eq, pr_branch_lt, pr_branch_gt, pr_branch_jump, pr_branch_ne, pr_branch_ge, pr_branch_le, pr_branch_call, } pr_branch_e; #define OP_A_SHIFT (9) #define OP_B_SHIFT (11) #define OP_C_SHIFT (13) #define OP_A_BASE (3 << OP_A_SHIFT) #define OP_B_BASE (3 << OP_B_SHIFT) #define OP_C_BASE (3 << OP_C_SHIFT) #define OP_MASK (~(OP_BREAK|OP_A_BASE|OP_B_BASE|OP_C_BASE)) typedef enum { OP_with_zero, OP_with_base, OP_with_stack, OP_with_entity, } pr_with_e; typedef struct v6p_opcode_s { const char *name; const char *opname; etype_t type_a, type_b, type_c; unsigned int min_version; const char *fmt; } v6p_opcode_t; extern const v6p_opcode_t pr_v6p_opcodes[]; const v6p_opcode_t *PR_v6p_Opcode (pr_ushort_t opcode) __attribute__((const)); typedef struct opcode_s { const char *opname; const char *mnemonic; int widths[3]; ///< component count for each argument (1-4) etype_t types[3]; ///< component type for each argument const char *fmt; } opcode_t; extern const opcode_t pr_opcodes[512]; const opcode_t *PR_Opcode (pr_ushort_t opcode) __attribute__((const)); typedef struct dstatement_s { pr_opcode_e op:16; // will be pr_opcode_v6p_e for older progs pr_ushort_t a,b,c; } GCC_STRUCT dstatement_t; typedef struct ddef_s { pr_ushort_t type; // if DEF_SAVEGLOBAL bit is set // the variable needs to be saved in savegames pr_ushort_t ofs; pr_string_t name; } ddef_t; typedef struct xdef_s { pr_ptr_t type; ///< pointer to type definition pr_ptr_t ofs; ///< 32-bit version of ddef_t.ofs } xdef_t; typedef struct pr_xdefs_s { pr_ptr_t xdefs; pr_int_t num_xdefs; } pr_xdefs_t; typedef struct pr_def_s { pr_ushort_t type; pr_ushort_t size; ///< may not be correct pr_ptr_t ofs; pr_string_t name; pr_ptr_t type_encoding; } pr_def_t; typedef struct dparmsize_s { uint8_t size:5; uint8_t alignment:3; } dparmsize_t; #define DEF_SAVEGLOBAL (1<<15) #define PR_MAX_PARAMS 8 #define PR_MAX_RETURN 32 // maximum size of return value typedef struct dfunction_s { pr_int_t first_statement; // negative numbers are builtins pr_uint_t params_start; // beginning of locals data space pr_uint_t locals; // total ints of params + locals pr_uint_t profile; // runtime pr_string_t name; // source function name pr_string_t file; // source file defined in pr_int_t numparams; // -ve is varargs (1s comp of real count) dparmsize_t param_size[PR_MAX_PARAMS]; } dfunction_t; typedef struct pr_type_s { union { pr_int_t value; pr_uint_t uint_value; pr_float_t float_value; }; } pr_type_t; typedef pr_type_t pr_void_t; // so size of void is 1 typedef struct pr_va_list_s { pr_int_t count; pr_ptr_t list; // pr_type_t } pr_va_list_t; #define PROG_VERSION_ENCODE(a,b,c) \ ( (((0x##a) & 0x0ff) << 24) \ |(((0x##b) & 0xfff) << 12) \ |(((0x##c) & 0xfff) << 0) ) #define PROG_ID_VERSION 6 #define PROG_V6P_VERSION PROG_VERSION_ENCODE(0,fff,00a) #define PROG_VERSION PROG_VERSION_ENCODE(0,fff,010) typedef struct pr_chunk_s { pr_uint_t offset; pr_uint_t count; } pr_chunk_t; typedef struct dprograms_s { pr_uint_t version; pr_uint_t crc; // checksum of header file pr_chunk_t statements; // statement 0 is an error pr_chunk_t globaldefs; pr_chunk_t fielddefs; pr_chunk_t functions; // function 0 is an empty pr_chunk_t strings; // first string is a null string, count is bytes pr_chunk_t globals; pr_uint_t entityfields; } dprograms_t; #endif//__QF_pr_comp_h