/****************************************************************************** Copyright (C) 2013 by Hugh Bailey 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, see . ******************************************************************************/ #include #include #include "../util/platform.h" #include "effect-parser.h" #include "effect.h" static inline bool ep_parse_param_assign(struct effect_parser *ep, struct ep_param *param); static enum gs_shader_param_type get_effect_param_type(const char *type) { if (strcmp(type, "float") == 0) return GS_SHADER_PARAM_FLOAT; else if (strcmp(type, "float2") == 0) return GS_SHADER_PARAM_VEC2; else if (strcmp(type, "float3") == 0) return GS_SHADER_PARAM_VEC3; else if (strcmp(type, "float4") == 0) return GS_SHADER_PARAM_VEC4; else if (strcmp(type, "int2") == 0) return GS_SHADER_PARAM_INT2; else if (strcmp(type, "int3") == 0) return GS_SHADER_PARAM_INT3; else if (strcmp(type, "int4") == 0) return GS_SHADER_PARAM_INT4; else if (astrcmp_n(type, "texture", 7) == 0) return GS_SHADER_PARAM_TEXTURE; else if (strcmp(type, "float4x4") == 0) return GS_SHADER_PARAM_MATRIX4X4; else if (strcmp(type, "bool") == 0) return GS_SHADER_PARAM_BOOL; else if (strcmp(type, "int") == 0) return GS_SHADER_PARAM_INT; else if (strcmp(type, "string") == 0) return GS_SHADER_PARAM_STRING; return GS_SHADER_PARAM_UNKNOWN; } void ep_free(struct effect_parser *ep) { size_t i; for (i = 0; i < ep->params.num; i++) ep_param_free(ep->params.array + i); for (i = 0; i < ep->structs.num; i++) ep_struct_free(ep->structs.array + i); for (i = 0; i < ep->funcs.num; i++) ep_func_free(ep->funcs.array + i); for (i = 0; i < ep->samplers.num; i++) ep_sampler_free(ep->samplers.array + i); for (i = 0; i < ep->techniques.num; i++) ep_technique_free(ep->techniques.array + i); ep->cur_pass = NULL; cf_parser_free(&ep->cfp); da_free(ep->params); da_free(ep->structs); da_free(ep->funcs); da_free(ep->samplers); da_free(ep->techniques); } static inline struct ep_func *ep_getfunc(struct effect_parser *ep, const char *name) { size_t i; for (i = 0; i < ep->funcs.num; i++) { if (strcmp(name, ep->funcs.array[i].name) == 0) return ep->funcs.array + i; } return NULL; } static inline struct ep_struct *ep_getstruct(struct effect_parser *ep, const char *name) { size_t i; for (i = 0; i < ep->structs.num; i++) { if (strcmp(name, ep->structs.array[i].name) == 0) return ep->structs.array + i; } return NULL; } static inline struct ep_sampler *ep_getsampler(struct effect_parser *ep, const char *name) { size_t i; for (i = 0; i < ep->samplers.num; i++) { if (strcmp(name, ep->samplers.array[i].name) == 0) return ep->samplers.array + i; } return NULL; } static inline struct ep_param *ep_getparam(struct effect_parser *ep, const char *name) { size_t i; for (i = 0; i < ep->params.num; i++) { if (strcmp(name, ep->params.array[i].name) == 0) return ep->params.array + i; } return NULL; } static inline struct ep_param *ep_getannotation(struct ep_param *param, const char *name) { size_t i; for (i = 0; i < param->annotations.num; i++) { if (strcmp(name, param->annotations.array[i].name) == 0) return param->annotations.array + i; } return NULL; } static inline struct ep_func *ep_getfunc_strref(struct effect_parser *ep, const struct strref *ref) { size_t i; for (i = 0; i < ep->funcs.num; i++) { if (strref_cmp(ref, ep->funcs.array[i].name) == 0) return ep->funcs.array + i; } return NULL; } static inline struct ep_struct *ep_getstruct_strref(struct effect_parser *ep, const struct strref *ref) { size_t i; for (i = 0; i < ep->structs.num; i++) { if (strref_cmp(ref, ep->structs.array[i].name) == 0) return ep->structs.array + i; } return NULL; } static inline struct ep_sampler *ep_getsampler_strref(struct effect_parser *ep, const struct strref *ref) { size_t i; for (i = 0; i < ep->samplers.num; i++) { if (strref_cmp(ref, ep->samplers.array[i].name) == 0) return ep->samplers.array + i; } return NULL; } static inline struct ep_param *ep_getparam_strref(struct effect_parser *ep, const struct strref *ref) { size_t i; for (i = 0; i < ep->params.num; i++) { if (strref_cmp(ref, ep->params.array[i].name) == 0) return ep->params.array + i; } return NULL; } static inline int ep_parse_struct_var(struct effect_parser *ep, struct ep_var *var) { int code; /* -------------------------------------- */ /* variable type */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ";")) return PARSE_CONTINUE; if (cf_token_is(&ep->cfp, "}")) return PARSE_BREAK; code = cf_token_is_type(&ep->cfp, CFTOKEN_NAME, "type name", ";"); if (code != PARSE_SUCCESS) return code; cf_copy_token(&ep->cfp, &var->type); /* -------------------------------------- */ /* variable name */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ";")) return PARSE_UNEXPECTED_CONTINUE; if (cf_token_is(&ep->cfp, "}")) return PARSE_UNEXPECTED_BREAK; code = cf_token_is_type(&ep->cfp, CFTOKEN_NAME, "variable name", ";"); if (code != PARSE_SUCCESS) return code; cf_copy_token(&ep->cfp, &var->name); /* -------------------------------------- */ /* variable mapping if any (POSITION, TEXCOORD, etc) */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ":")) { if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ";")) return PARSE_UNEXPECTED_CONTINUE; if (cf_token_is(&ep->cfp, "}")) return PARSE_UNEXPECTED_BREAK; code = cf_token_is_type(&ep->cfp, CFTOKEN_NAME, "mapping name", ";"); if (code != PARSE_SUCCESS) return code; cf_copy_token(&ep->cfp, &var->mapping); if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; } /* -------------------------------------- */ if (!cf_token_is(&ep->cfp, ";")) { if (!cf_go_to_valid_token(&ep->cfp, ";", "}")) return PARSE_EOF; return PARSE_CONTINUE; } return PARSE_SUCCESS; } static void ep_parse_struct(struct effect_parser *ep) { struct ep_struct eps; ep_struct_init(&eps); if (cf_next_name(&ep->cfp, &eps.name, "name", ";") != PARSE_SUCCESS) goto error; if (cf_next_token_should_be(&ep->cfp, "{", ";", NULL) != PARSE_SUCCESS) goto error; /* get structure variables */ while (true) { bool do_break = false; struct ep_var var; ep_var_init(&var); switch (ep_parse_struct_var(ep, &var)) { case PARSE_UNEXPECTED_CONTINUE: cf_adderror_syntax_error(&ep->cfp); /* Falls through. */ case PARSE_CONTINUE: ep_var_free(&var); continue; case PARSE_UNEXPECTED_BREAK: cf_adderror_syntax_error(&ep->cfp); /* Falls through. */ case PARSE_BREAK: ep_var_free(&var); do_break = true; break; case PARSE_EOF: ep_var_free(&var); goto error; } if (do_break) break; da_push_back(eps.vars, &var); } if (cf_next_token_should_be(&ep->cfp, ";", NULL, NULL) != PARSE_SUCCESS) goto error; da_push_back(ep->structs, &eps); return; error: ep_struct_free(&eps); } static inline int ep_parse_param_annotation_var(struct effect_parser *ep, struct ep_param *var) { int code; /* -------------------------------------- */ /* variable type */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ";")) return PARSE_CONTINUE; if (cf_token_is(&ep->cfp, ">")) return PARSE_BREAK; code = cf_token_is_type(&ep->cfp, CFTOKEN_NAME, "type name", ";"); if (code != PARSE_SUCCESS) return code; bfree(var->type); cf_copy_token(&ep->cfp, &var->type); /* -------------------------------------- */ /* variable name */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ";")) { cf_adderror_expecting(&ep->cfp, "variable name"); return PARSE_UNEXPECTED_CONTINUE; } if (cf_token_is(&ep->cfp, ">")) { cf_adderror_expecting(&ep->cfp, "variable name"); return PARSE_UNEXPECTED_BREAK; } code = cf_token_is_type(&ep->cfp, CFTOKEN_NAME, "variable name", ";"); if (code != PARSE_SUCCESS) return code; bfree(var->name); cf_copy_token(&ep->cfp, &var->name); /* -------------------------------------- */ /* variable mapping if any (POSITION, TEXCOORD, etc) */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ":")) { cf_adderror_expecting(&ep->cfp, "= or ;"); return PARSE_UNEXPECTED_BREAK; } else if (cf_token_is(&ep->cfp, ">")) { cf_adderror_expecting(&ep->cfp, "= or ;"); return PARSE_UNEXPECTED_BREAK; } else if (cf_token_is(&ep->cfp, "=")) { if (!ep_parse_param_assign(ep, var)) { cf_adderror_expecting(&ep->cfp, "assignment value"); return PARSE_UNEXPECTED_BREAK; } } /* -------------------------------------- */ if (!cf_token_is(&ep->cfp, ";")) { if (!cf_go_to_valid_token(&ep->cfp, ";", ">")) { cf_adderror_expecting(&ep->cfp, "; or >"); return PARSE_EOF; } return PARSE_CONTINUE; } return PARSE_SUCCESS; } static int ep_parse_annotations(struct effect_parser *ep, struct darray *annotations) { if (!cf_token_is(&ep->cfp, "<")) { cf_adderror_expecting(&ep->cfp, "<"); goto error; } /* get annotation variables */ while (true) { bool do_break = false; struct ep_param var; ep_param_init(&var, bstrdup(""), bstrdup(""), false, false, false); switch (ep_parse_param_annotation_var(ep, &var)) { case PARSE_UNEXPECTED_CONTINUE: cf_adderror_syntax_error(&ep->cfp); /* Falls through. */ case PARSE_CONTINUE: ep_param_free(&var); continue; case PARSE_UNEXPECTED_BREAK: cf_adderror_syntax_error(&ep->cfp); /* Falls through. */ case PARSE_BREAK: ep_param_free(&var); do_break = true; break; case PARSE_EOF: ep_param_free(&var); goto error; } if (do_break) break; darray_push_back(sizeof(struct ep_param), annotations, &var); } if (!cf_token_is(&ep->cfp, ">")) { cf_adderror_expecting(&ep->cfp, ">"); goto error; } if (!cf_next_valid_token(&ep->cfp)) goto error; return true; error: return false; } static int ep_parse_param_annotations(struct effect_parser *ep, struct ep_param *param) { return ep_parse_annotations(ep, ¶m->annotations.da); } static inline int ep_parse_pass_command_call(struct effect_parser *ep, struct darray *call) { struct cf_token end_token; cf_token_clear(&end_token); while (!cf_token_is(&ep->cfp, ";")) { if (cf_token_is(&ep->cfp, "}")) { cf_adderror_expecting(&ep->cfp, ";"); return PARSE_CONTINUE; } darray_push_back(sizeof(struct cf_token), call, ep->cfp.cur_token); if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; } darray_push_back(sizeof(struct cf_token), call, ep->cfp.cur_token); darray_push_back(sizeof(struct cf_token), call, &end_token); return PARSE_SUCCESS; } static int ep_parse_pass_command(struct effect_parser *ep, struct ep_pass *pass) { struct darray *call; /* struct cf_token */ if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, "vertex_shader") || cf_token_is(&ep->cfp, "vertex_program")) { call = &pass->vertex_program.da; } else if (cf_token_is(&ep->cfp, "pixel_shader") || cf_token_is(&ep->cfp, "pixel_program")) { call = &pass->fragment_program.da; } else { cf_adderror_syntax_error(&ep->cfp); if (!cf_go_to_valid_token(&ep->cfp, ";", "}")) return PARSE_EOF; return PARSE_CONTINUE; } if (cf_next_token_should_be(&ep->cfp, "=", ";", "}") != PARSE_SUCCESS) return PARSE_CONTINUE; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, "compile")) { cf_adderror(&ep->cfp, "compile keyword not necessary", LEX_WARNING, NULL, NULL, NULL); if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; } return ep_parse_pass_command_call(ep, call); } static int ep_parse_pass(struct effect_parser *ep, struct ep_pass *pass) { struct cf_token peek; if (!cf_token_is(&ep->cfp, "pass")) return PARSE_UNEXPECTED_CONTINUE; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (!cf_token_is(&ep->cfp, "{")) { pass->name = bstrdup_n(ep->cfp.cur_token->str.array, ep->cfp.cur_token->str.len); if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; } if (!cf_peek_valid_token(&ep->cfp, &peek)) return PARSE_EOF; while (strref_cmp(&peek.str, "}") != 0) { int ret = ep_parse_pass_command(ep, pass); if (ret < 0 && ret != PARSE_CONTINUE) return ret; if (!cf_peek_valid_token(&ep->cfp, &peek)) return PARSE_EOF; } /* token is '}' */ cf_next_token(&ep->cfp); return PARSE_SUCCESS; } static void ep_parse_technique(struct effect_parser *ep) { struct ep_technique ept; ep_technique_init(&ept); if (cf_next_name(&ep->cfp, &ept.name, "name", ";") != PARSE_SUCCESS) goto error; if (!cf_next_valid_token(&ep->cfp)) return; if (!cf_token_is(&ep->cfp, "{")) { if (!cf_go_to_token(&ep->cfp, ";", NULL)) { cf_adderror_expecting(&ep->cfp, ";"); return; } cf_adderror_expecting(&ep->cfp, "{"); goto error; } if (!cf_next_valid_token(&ep->cfp)) goto error; while (!cf_token_is(&ep->cfp, "}")) { struct ep_pass pass; ep_pass_init(&pass); switch (ep_parse_pass(ep, &pass)) { case PARSE_UNEXPECTED_CONTINUE: ep_pass_free(&pass); if (!cf_go_to_token(&ep->cfp, "}", NULL)) goto error; continue; case PARSE_EOF: ep_pass_free(&pass); goto error; } da_push_back(ept.passes, &pass); if (!cf_next_valid_token(&ep->cfp)) goto error; } /* pass the current token (which is '}') if we reached here */ cf_next_token(&ep->cfp); da_push_back(ep->techniques, &ept); return; error: cf_next_token(&ep->cfp); ep_technique_free(&ept); } static int ep_parse_sampler_state_item(struct effect_parser *ep, struct ep_sampler *eps) { int ret; char *state = NULL; struct dstr value = {0}; ret = cf_next_name(&ep->cfp, &state, "state name", ";"); if (ret != PARSE_SUCCESS) goto fail; ret = cf_next_token_should_be(&ep->cfp, "=", ";", NULL); if (ret != PARSE_SUCCESS) goto fail; for (;;) { const char *cur_str; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; cur_str = ep->cfp.cur_token->str.array; if (*cur_str == ';') break; dstr_ncat(&value, cur_str, ep->cfp.cur_token->str.len); } if (value.len) { da_push_back(eps->states, &state); da_push_back(eps->values, &value.array); } return ret; fail: bfree(state); dstr_free(&value); return ret; } static void ep_parse_sampler_state(struct effect_parser *ep) { struct ep_sampler eps; struct cf_token peek; ep_sampler_init(&eps); if (cf_next_name(&ep->cfp, &eps.name, "name", ";") != PARSE_SUCCESS) goto error; if (cf_next_token_should_be(&ep->cfp, "{", ";", NULL) != PARSE_SUCCESS) goto error; if (!cf_peek_valid_token(&ep->cfp, &peek)) goto error; while (strref_cmp(&peek.str, "}") != 0) { int ret = ep_parse_sampler_state_item(ep, &eps); if (ret == PARSE_EOF) goto error; if (!cf_peek_valid_token(&ep->cfp, &peek)) goto error; } if (cf_next_token_should_be(&ep->cfp, "}", ";", NULL) != PARSE_SUCCESS) goto error; if (cf_next_token_should_be(&ep->cfp, ";", NULL, NULL) != PARSE_SUCCESS) goto error; da_push_back(ep->samplers, &eps); return; error: ep_sampler_free(&eps); } static inline int ep_check_for_keyword(struct effect_parser *ep, const char *keyword, bool *val) { bool new_val = cf_token_is(&ep->cfp, keyword); if (new_val) { if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (new_val && *val) cf_adderror(&ep->cfp, "'$1' keyword already specified", LEX_WARNING, keyword, NULL, NULL); *val = new_val; return PARSE_CONTINUE; } return PARSE_SUCCESS; } static inline int ep_parse_func_param(struct effect_parser *ep, struct ep_func *func, struct ep_var *var) { int code; bool var_type_keyword = false; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; code = ep_check_for_keyword(ep, "in", &var_type_keyword); if (code == PARSE_EOF) return PARSE_EOF; else if (var_type_keyword) var->var_type = EP_VAR_IN; if (!var_type_keyword) { code = ep_check_for_keyword(ep, "inout", &var_type_keyword); if (code == PARSE_EOF) return PARSE_EOF; else if (var_type_keyword) var->var_type = EP_VAR_INOUT; } if (!var_type_keyword) { code = ep_check_for_keyword(ep, "out", &var_type_keyword); if (code == PARSE_EOF) return PARSE_EOF; else if (var_type_keyword) var->var_type = EP_VAR_OUT; } if (!var_type_keyword) { code = ep_check_for_keyword(ep, "uniform", &var_type_keyword); if (code == PARSE_EOF) return PARSE_EOF; else if (var_type_keyword) var->var_type = EP_VAR_UNIFORM; } code = cf_get_name(&ep->cfp, &var->type, "type", ")"); if (code != PARSE_SUCCESS) return code; code = cf_next_name(&ep->cfp, &var->name, "name", ")"); if (code != PARSE_SUCCESS) return code; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, ":")) { code = cf_next_name(&ep->cfp, &var->mapping, "mapping specifier", ")"); if (code != PARSE_SUCCESS) return code; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; } if (ep_getstruct(ep, var->type) != NULL) da_push_back(func->struct_deps, &var->type); else if (ep_getsampler(ep, var->type) != NULL) da_push_back(func->sampler_deps, &var->type); return PARSE_SUCCESS; } static bool ep_parse_func_params(struct effect_parser *ep, struct ep_func *func) { struct cf_token peek; int code; cf_token_clear(&peek); if (!cf_peek_valid_token(&ep->cfp, &peek)) return false; if (*peek.str.array == ')') { cf_next_token(&ep->cfp); goto exit; } do { struct ep_var var; ep_var_init(&var); if (!cf_token_is(&ep->cfp, "(") && !cf_token_is(&ep->cfp, ",")) cf_adderror_syntax_error(&ep->cfp); code = ep_parse_func_param(ep, func, &var); if (code != PARSE_SUCCESS) { ep_var_free(&var); if (code == PARSE_CONTINUE) goto exit; else if (code == PARSE_EOF) return false; } da_push_back(func->param_vars, &var); } while (!cf_token_is(&ep->cfp, ")")); exit: return true; } static inline bool ep_process_struct_dep(struct effect_parser *ep, struct ep_func *func) { struct ep_struct *val = ep_getstruct_strref(ep, &ep->cfp.cur_token->str); if (val) da_push_back(func->struct_deps, &val->name); return val != NULL; } static inline bool ep_process_func_dep(struct effect_parser *ep, struct ep_func *func) { struct ep_func *val = ep_getfunc_strref(ep, &ep->cfp.cur_token->str); if (val) da_push_back(func->func_deps, &val->name); return val != NULL; } static inline bool ep_process_sampler_dep(struct effect_parser *ep, struct ep_func *func) { struct ep_sampler *val = ep_getsampler_strref(ep, &ep->cfp.cur_token->str); if (val) da_push_back(func->sampler_deps, &val->name); return val != NULL; } static inline bool ep_process_param_dep(struct effect_parser *ep, struct ep_func *func) { struct ep_param *val = ep_getparam_strref(ep, &ep->cfp.cur_token->str); if (val) da_push_back(func->param_deps, &val->name); return val != NULL; } static inline bool ep_parse_func_contents(struct effect_parser *ep, struct ep_func *func) { int braces = 1; dstr_cat_strref(&func->contents, &ep->cfp.cur_token->str); while (braces > 0) { if ((ep->cfp.cur_token++)->type == CFTOKEN_NONE) return false; if (ep->cfp.cur_token->type == CFTOKEN_SPACETAB || ep->cfp.cur_token->type == CFTOKEN_NEWLINE) { } else if (cf_token_is(&ep->cfp, "{")) { braces++; } else if (cf_token_is(&ep->cfp, "}")) { braces--; } else if (ep_process_struct_dep(ep, func) || ep_process_func_dep(ep, func) || ep_process_sampler_dep(ep, func) || ep_process_param_dep(ep, func)) { } dstr_cat_strref(&func->contents, &ep->cfp.cur_token->str); } return true; } static void ep_parse_function(struct effect_parser *ep, char *type, char *name) { struct ep_func func; int code; ep_func_init(&func, type, name); if (ep_getstruct(ep, type)) da_push_back(func.struct_deps, &func.ret_type); if (!ep_parse_func_params(ep, &func)) goto error; if (!cf_next_valid_token(&ep->cfp)) goto error; /* if function is mapped to something, for example COLOR */ if (cf_token_is(&ep->cfp, ":")) { code = cf_next_name(&ep->cfp, &func.mapping, "mapping specifier", "{"); if (code == PARSE_EOF) goto error; else if (code != PARSE_CONTINUE) { if (!cf_next_valid_token(&ep->cfp)) goto error; } } if (!cf_token_is(&ep->cfp, "{")) { cf_adderror_expecting(&ep->cfp, "{"); goto error; } if (!ep_parse_func_contents(ep, &func)) goto error; /* it is established that the current token is '}' if we reach this */ cf_next_token(&ep->cfp); da_push_back(ep->funcs, &func); return; error: ep_func_free(&func); } /* parses "array[count]" */ static bool ep_parse_param_array(struct effect_parser *ep, struct ep_param *param) { if (!cf_next_valid_token(&ep->cfp)) return false; if (ep->cfp.cur_token->type != CFTOKEN_NUM || !valid_int_str(ep->cfp.cur_token->str.array, ep->cfp.cur_token->str.len)) return false; param->array_count = (int)strtol(ep->cfp.cur_token->str.array, NULL, 10); if (cf_next_token_should_be(&ep->cfp, "]", ";", NULL) == PARSE_EOF) return false; if (!cf_next_valid_token(&ep->cfp)) return false; return true; } static inline int ep_parse_param_assign_texture(struct effect_parser *ep, struct ep_param *param) { int code; char *str; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; code = cf_token_is_type(&ep->cfp, CFTOKEN_STRING, "texture path string", ";"); if (code != PARSE_SUCCESS) return code; str = cf_literal_to_str(ep->cfp.cur_token->str.array, ep->cfp.cur_token->str.len); if (str) { da_copy_array(param->default_val, str, strlen(str) + 1); bfree(str); } return PARSE_SUCCESS; } static inline int ep_parse_param_assign_string(struct effect_parser *ep, struct ep_param *param) { int code; char *str = NULL; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; code = cf_token_is_type(&ep->cfp, CFTOKEN_STRING, "string", ";"); if (code != PARSE_SUCCESS) return code; str = cf_literal_to_str(ep->cfp.cur_token->str.array, ep->cfp.cur_token->str.len); if (str) { da_copy_array(param->default_val, str, strlen(str) + 1); bfree(str); } return PARSE_SUCCESS; } static inline int ep_parse_param_assign_intfloat(struct effect_parser *ep, struct ep_param *param, bool is_float) { int code; bool is_negative = false; if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, "-")) { is_negative = true; if (!cf_next_token(&ep->cfp)) return PARSE_EOF; } code = cf_token_is_type(&ep->cfp, CFTOKEN_NUM, "numeric value", ";"); if (code != PARSE_SUCCESS) return code; if (is_float) { float f = (float)os_strtod(ep->cfp.cur_token->str.array); if (is_negative) f = -f; da_push_back_array(param->default_val, &f, sizeof(float)); } else { long l = strtol(ep->cfp.cur_token->str.array, NULL, 10); if (is_negative) l = -l; da_push_back_array(param->default_val, &l, sizeof(long)); } return PARSE_SUCCESS; } static inline int ep_parse_param_assign_bool(struct effect_parser *ep, struct ep_param *param) { if (!cf_next_valid_token(&ep->cfp)) return PARSE_EOF; if (cf_token_is(&ep->cfp, "true")) { long l = 1; da_push_back_array(param->default_val, &l, sizeof(long)); return PARSE_SUCCESS; } else if (cf_token_is(&ep->cfp, "false")) { long l = 0; da_push_back_array(param->default_val, &l, sizeof(long)); return PARSE_SUCCESS; } cf_adderror_expecting(&ep->cfp, "true or false"); return PARSE_EOF; } /* * parses assignment for float1, float2, float3, float4, int1, int2, int3, int4, * and any combination for float3x3, float4x4, int3x3, int4x4, etc */ static inline int ep_parse_param_assign_intfloat_array(struct effect_parser *ep, struct ep_param *param, bool is_float) { const char *intfloat_type = param->type + (is_float ? 5 : 3); int intfloat_count = 0, code, i; /* -------------------------------------------- */ if (intfloat_type[0] < '1' || intfloat_type[0] > '4') cf_adderror(&ep->cfp, "Invalid row count", LEX_ERROR, NULL, NULL, NULL); intfloat_count = intfloat_type[0] - '0'; if (intfloat_type[1] == 'x') { if (intfloat_type[2] < '1' || intfloat_type[2] > '4') cf_adderror(&ep->cfp, "Invalid column count", LEX_ERROR, NULL, NULL, NULL); intfloat_count *= intfloat_type[2] - '0'; } /* -------------------------------------------- */ code = cf_next_token_should_be(&ep->cfp, "{", ";", NULL); if (code != PARSE_SUCCESS) return code; for (i = 0; i < intfloat_count; i++) { char *next = ((i + 1) < intfloat_count) ? "," : "}"; code = ep_parse_param_assign_intfloat(ep, param, is_float); if (code != PARSE_SUCCESS) return code; code = cf_next_token_should_be(&ep->cfp, next, ";", NULL); if (code != PARSE_SUCCESS) return code; } return PARSE_SUCCESS; } static int ep_parse_param_assignment_val(struct effect_parser *ep, struct ep_param *param) { if (param->is_texture) return ep_parse_param_assign_texture(ep, param); else if (strcmp(param->type, "int") == 0) return ep_parse_param_assign_intfloat(ep, param, false); else if (strcmp(param->type, "float") == 0) return ep_parse_param_assign_intfloat(ep, param, true); else if (astrcmp_n(param->type, "int", 3) == 0) return ep_parse_param_assign_intfloat_array(ep, param, false); else if (astrcmp_n(param->type, "float", 5) == 0) return ep_parse_param_assign_intfloat_array(ep, param, true); else if (astrcmp_n(param->type, "string", 6) == 0) return ep_parse_param_assign_string(ep, param); else if (strcmp(param->type, "bool") == 0) return ep_parse_param_assign_bool(ep, param); cf_adderror(&ep->cfp, "Invalid type '$1' used for assignment", LEX_ERROR, param->type, NULL, NULL); return PARSE_CONTINUE; } static inline bool ep_parse_param_assign(struct effect_parser *ep, struct ep_param *param) { if (ep_parse_param_assignment_val(ep, param) != PARSE_SUCCESS) return false; if (!cf_next_valid_token(&ep->cfp)) return false; return true; } /* static bool ep_parse_param_property(struct effect_parser *ep, struct ep_param *param) { } */ static void ep_parse_param(struct effect_parser *ep, char *type, char *name, bool is_property, bool is_const, bool is_uniform) { struct ep_param param; ep_param_init(¶m, type, name, is_property, is_const, is_uniform); if (cf_token_is(&ep->cfp, ";")) goto complete; if (cf_token_is(&ep->cfp, "[") && !ep_parse_param_array(ep, ¶m)) goto error; if (cf_token_is(&ep->cfp, "<") && !ep_parse_param_annotations(ep, ¶m)) goto error; if (cf_token_is(&ep->cfp, "=") && !ep_parse_param_assign(ep, ¶m)) goto error; /* if (cf_token_is(&ep->cfp, "<") && !ep_parse_param_property(ep, ¶m)) goto error; */ if (!cf_token_is(&ep->cfp, ";")) goto error; complete: da_push_back(ep->params, ¶m); return; error: ep_param_free(¶m); } static bool ep_get_var_specifiers(struct effect_parser *ep, bool *is_property, bool *is_const, bool *is_uniform) { while (true) { int code; code = ep_check_for_keyword(ep, "property", is_property); if (code == PARSE_EOF) return false; else if (code == PARSE_CONTINUE) continue; code = ep_check_for_keyword(ep, "const", is_const); if (code == PARSE_EOF) return false; else if (code == PARSE_CONTINUE) continue; code = ep_check_for_keyword(ep, "uniform", is_uniform); if (code == PARSE_EOF) return false; else if (code == PARSE_CONTINUE) continue; break; } return true; } static inline void report_invalid_func_keyword(struct effect_parser *ep, const char *name, bool val) { if (val) cf_adderror(&ep->cfp, "'$1' keyword cannot be used with a " "function", LEX_ERROR, name, NULL, NULL); } static void ep_parse_other(struct effect_parser *ep) { bool is_property = false, is_const = false, is_uniform = false; char *type = NULL, *name = NULL; if (!ep_get_var_specifiers(ep, &is_property, &is_const, &is_uniform)) goto error; if (cf_get_name(&ep->cfp, &type, "type", ";") != PARSE_SUCCESS) goto error; if (cf_next_name(&ep->cfp, &name, "name", ";") != PARSE_SUCCESS) goto error; if (!cf_next_valid_token(&ep->cfp)) goto error; if (cf_token_is(&ep->cfp, "(")) { report_invalid_func_keyword(ep, "property", is_property); report_invalid_func_keyword(ep, "const", is_const); report_invalid_func_keyword(ep, "uniform", is_uniform); ep_parse_function(ep, type, name); return; } else { ep_parse_param(ep, type, name, is_property, is_const, is_uniform); return; } error: bfree(type); bfree(name); } static bool ep_compile(struct effect_parser *ep); extern const char *gs_preprocessor_name(void); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) static void debug_get_default_value(struct gs_effect_param *param, char *buffer, unsigned long long buf_size) { if (param->default_val.num == 0) { snprintf(buffer, buf_size, "(null)"); return; } switch (param->type) { case GS_SHADER_PARAM_STRING: snprintf(buffer, buf_size, "'%.*s'", param->default_val.num, param->default_val.array); break; case GS_SHADER_PARAM_INT: snprintf(buffer, buf_size, "%ld", *(int *)(param->default_val.array + 0)); break; case GS_SHADER_PARAM_INT2: snprintf(buffer, buf_size, "%ld,%ld", *(int *)(param->default_val.array + 0), *(int *)(param->default_val.array + 4)); break; case GS_SHADER_PARAM_INT3: snprintf(buffer, buf_size, "%ld,%ld,%ld", *(int *)(param->default_val.array + 0), *(int *)(param->default_val.array + 4), *(int *)(param->default_val.array + 8)); break; case GS_SHADER_PARAM_INT4: snprintf(buffer, buf_size, "%ld,%ld,%ld,%ld", *(int *)(param->default_val.array + 0), *(int *)(param->default_val.array + 4), *(int *)(param->default_val.array + 8), *(int *)(param->default_val.array + 12)); break; case GS_SHADER_PARAM_FLOAT: snprintf(buffer, buf_size, "%e", *(float *)(param->default_val.array + 0)); break; case GS_SHADER_PARAM_VEC2: snprintf(buffer, buf_size, "%e,%e", *(float *)(param->default_val.array + 0), *(float *)(param->default_val.array + 4)); break; case GS_SHADER_PARAM_VEC3: snprintf(buffer, buf_size, "%e,%e,%e", *(float *)(param->default_val.array + 0), *(float *)(param->default_val.array + 4), *(float *)(param->default_val.array + 8)); break; case GS_SHADER_PARAM_VEC4: snprintf(buffer, buf_size, "%e,%e,%e,%e", *(float *)(param->default_val.array + 0), *(float *)(param->default_val.array + 4), *(float *)(param->default_val.array + 8), *(float *)(param->default_val.array + 12)); break; case GS_SHADER_PARAM_MATRIX4X4: snprintf(buffer, buf_size, "[[%e,%e,%e,%e],[%e,%e,%e,%e]," "[%e,%e,%e,%e],[%e,%e,%e,%e]]", *(float *)(param->default_val.array + 0), *(float *)(param->default_val.array + 4), *(float *)(param->default_val.array + 8), *(float *)(param->default_val.array + 12), *(float *)(param->default_val.array + 16), *(float *)(param->default_val.array + 20), *(float *)(param->default_val.array + 24), *(float *)(param->default_val.array + 28), *(float *)(param->default_val.array + 32), *(float *)(param->default_val.array + 36), *(float *)(param->default_val.array + 40), *(float *)(param->default_val.array + 44), *(float *)(param->default_val.array + 48), *(float *)(param->default_val.array + 52), *(float *)(param->default_val.array + 56), *(float *)(param->default_val.array + 60)); break; case GS_SHADER_PARAM_BOOL: snprintf(buffer, buf_size, "%s", (*param->default_val.array) != 0 ? "true\0" : "false\0"); break; case GS_SHADER_PARAM_UNKNOWN: case GS_SHADER_PARAM_TEXTURE: snprintf(buffer, buf_size, ""); break; } } static void debug_param(struct gs_effect_param *param, struct ep_param *param_in, unsigned long long idx, const char *offset) { char _debug_type[4096]; switch (param->type) { case GS_SHADER_PARAM_STRING: snprintf(_debug_type, sizeof(_debug_type), "string"); break; case GS_SHADER_PARAM_INT: snprintf(_debug_type, sizeof(_debug_type), "int"); break; case GS_SHADER_PARAM_INT2: snprintf(_debug_type, sizeof(_debug_type), "int2"); break; case GS_SHADER_PARAM_INT3: snprintf(_debug_type, sizeof(_debug_type), "int3"); break; case GS_SHADER_PARAM_INT4: snprintf(_debug_type, sizeof(_debug_type), "int4"); break; case GS_SHADER_PARAM_FLOAT: snprintf(_debug_type, sizeof(_debug_type), "float"); break; case GS_SHADER_PARAM_VEC2: snprintf(_debug_type, sizeof(_debug_type), "float2"); break; case GS_SHADER_PARAM_VEC3: snprintf(_debug_type, sizeof(_debug_type), "float3"); break; case GS_SHADER_PARAM_VEC4: snprintf(_debug_type, sizeof(_debug_type), "float4"); break; case GS_SHADER_PARAM_MATRIX4X4: snprintf(_debug_type, sizeof(_debug_type), "float4x4"); break; case GS_SHADER_PARAM_BOOL: snprintf(_debug_type, sizeof(_debug_type), "bool"); break; case GS_SHADER_PARAM_UNKNOWN: snprintf(_debug_type, sizeof(_debug_type), "unknown"); break; case GS_SHADER_PARAM_TEXTURE: snprintf(_debug_type, sizeof(_debug_type), "texture"); break; } char _debug_buf[4096]; debug_get_default_value(param, _debug_buf, sizeof(_debug_buf)); if (param->annotations.num > 0) { blog(LOG_DEBUG, "%s[%4lld] %.*s '%s' with value %.*s and %lld annotations:", offset, idx, sizeof(_debug_type), _debug_type, param->name, sizeof(_debug_buf), _debug_buf, param->annotations.num); } else { blog(LOG_DEBUG, "%s[%4lld] %.*s '%s' with value %.*s.", offset, idx, sizeof(_debug_type), _debug_type, param->name, sizeof(_debug_buf), _debug_buf); } } static void debug_param_annotation(struct gs_effect_param *param, struct ep_param *param_in, unsigned long long idx, const char *offset) { char _debug_buf[4096]; debug_get_default_value(param, _debug_buf, sizeof(_debug_buf)); blog(LOG_DEBUG, "%s[%4lld] %s '%s' with value %.*s", offset, idx, param_in->type, param->name, sizeof(_debug_buf), _debug_buf); } static void debug_print_string(const char *offset, const char *str) { // Bypass 4096 limit in def_log_handler. char const *begin = str; unsigned long long line = 1; for (char const *here = begin; here[0] != '\0'; here++) { char const *str = begin; unsigned long long len = here - begin; bool is_line = false; if (here[0] == '\r') { is_line = true; if (here[1] == '\n') { here += 1; } begin = here + 1; } else if (here[0] == '\n') { is_line = true; begin = here + 1; } if (is_line) { blog(LOG_DEBUG, "\t\t\t\t[%4lld] %.*s", line, len, str); line++; } } if (begin[0] != '\0') { // Final line was not written. blog(LOG_DEBUG, "\t\t\t\t[%4lld] %*s", line, strlen(begin), begin); } } #endif bool ep_parse(struct effect_parser *ep, gs_effect_t *effect, const char *effect_string, const char *file) { bool success; const char *graphics_preprocessor = gs_preprocessor_name(); if (graphics_preprocessor) { struct cf_def def; cf_def_init(&def); def.name.str.array = graphics_preprocessor; def.name.str.len = strlen(graphics_preprocessor); strref_copy(&def.name.unmerged_str, &def.name.str); cf_preprocessor_add_def(&ep->cfp.pp, &def); } ep->effect = effect; if (!cf_parser_parse(&ep->cfp, effect_string, file)) return false; while (ep->cfp.cur_token && ep->cfp.cur_token->type != CFTOKEN_NONE) { if (cf_token_is(&ep->cfp, ";") || is_whitespace(*ep->cfp.cur_token->str.array)) { /* do nothing */ ep->cfp.cur_token++; } else if (cf_token_is(&ep->cfp, "struct")) { ep_parse_struct(ep); } else if (cf_token_is(&ep->cfp, "technique")) { ep_parse_technique(ep); } else if (cf_token_is(&ep->cfp, "sampler_state")) { ep_parse_sampler_state(ep); } else if (cf_token_is(&ep->cfp, "{")) { /* add error and pass braces */ cf_adderror(&ep->cfp, "Unexpected code segment", LEX_ERROR, NULL, NULL, NULL); cf_pass_pair(&ep->cfp, '{', '}'); } else { /* parameters and functions */ ep_parse_other(ep); } } #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "================================================================================"); blog(LOG_DEBUG, "Effect Parser reformatted shader '%s' to:", file); debug_print_string("\t", ep->cfp.lex.reformatted); #endif success = !error_data_has_errors(&ep->cfp.error_list); if (success) success = ep_compile(ep); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "================================================================================"); #endif return success; } /* ------------------------------------------------------------------------- */ static inline void ep_write_param(struct dstr *shader, struct ep_param *param, struct darray *used_params) { if (param->written) return; if (param->is_const) { dstr_cat(shader, "const "); } else if (param->is_uniform) { struct dstr new; dstr_init_copy(&new, param->name); darray_push_back(sizeof(struct dstr), used_params, &new); dstr_cat(shader, "uniform "); } dstr_cat(shader, param->type); dstr_cat(shader, " "); dstr_cat(shader, param->name); if (param->array_count) dstr_catf(shader, "[%u]", param->array_count); dstr_cat(shader, ";\n"); param->written = true; } static inline void ep_write_func_param_deps(struct effect_parser *ep, struct dstr *shader, struct ep_func *func, struct darray *used_params) { size_t i; for (i = 0; i < func->param_deps.num; i++) { const char *name = func->param_deps.array[i]; struct ep_param *param = ep_getparam(ep, name); ep_write_param(shader, param, used_params); } if (func->param_deps.num) dstr_cat(shader, "\n\n"); } static void ep_write_sampler(struct dstr *shader, struct ep_sampler *sampler) { size_t i; if (sampler->written) return; dstr_cat(shader, "sampler_state "); dstr_cat(shader, sampler->name); dstr_cat(shader, " {"); for (i = 0; i < sampler->values.num; i++) { dstr_cat(shader, "\n\t"); dstr_cat(shader, sampler->states.array[i]); dstr_cat(shader, " = "); dstr_cat(shader, sampler->values.array[i]); dstr_cat(shader, ";\n"); } dstr_cat(shader, "\n};\n"); sampler->written = true; } static inline void ep_write_func_sampler_deps(struct effect_parser *ep, struct dstr *shader, struct ep_func *func) { size_t i; for (i = 0; i < func->sampler_deps.num; i++) { const char *name = func->sampler_deps.array[i]; struct ep_sampler *sampler = ep_getsampler(ep, name); ep_write_sampler(shader, sampler); dstr_cat(shader, "\n"); } } static inline void ep_write_var(struct dstr *shader, struct ep_var *var) { if (var->var_type == EP_VAR_INOUT) dstr_cat(shader, "inout "); else if (var->var_type == EP_VAR_OUT) dstr_cat(shader, "out "); else if (var->var_type == EP_VAR_UNIFORM) dstr_cat(shader, "uniform "); // The "in" input modifier is implied by default, so leave it blank // in that case. dstr_cat(shader, var->type); dstr_cat(shader, " "); dstr_cat(shader, var->name); if (var->mapping) { dstr_cat(shader, " : "); dstr_cat(shader, var->mapping); } } static void ep_write_struct(struct dstr *shader, struct ep_struct *st) { size_t i; if (st->written) return; dstr_cat(shader, "struct "); dstr_cat(shader, st->name); dstr_cat(shader, " {"); for (i = 0; i < st->vars.num; i++) { dstr_cat(shader, "\n\t"); ep_write_var(shader, st->vars.array + i); dstr_cat(shader, ";"); } dstr_cat(shader, "\n};\n"); st->written = true; } static inline void ep_write_func_struct_deps(struct effect_parser *ep, struct dstr *shader, struct ep_func *func) { size_t i; for (i = 0; i < func->struct_deps.num; i++) { const char *name = func->struct_deps.array[i]; struct ep_struct *st = ep_getstruct(ep, name); if (!st->written) { ep_write_struct(shader, st); dstr_cat(shader, "\n"); st->written = true; } } } static void ep_write_func(struct effect_parser *ep, struct dstr *shader, struct ep_func *func, struct darray *used_params); static inline void ep_write_func_func_deps(struct effect_parser *ep, struct dstr *shader, struct ep_func *func, struct darray *used_params) { size_t i; for (i = 0; i < func->func_deps.num; i++) { const char *name = func->func_deps.array[i]; struct ep_func *func_dep = ep_getfunc(ep, name); if (!func_dep->written) { ep_write_func(ep, shader, func_dep, used_params); dstr_cat(shader, "\n\n"); } } } static void ep_write_func(struct effect_parser *ep, struct dstr *shader, struct ep_func *func, struct darray *used_params) { size_t i; func->written = true; ep_write_func_param_deps(ep, shader, func, used_params); ep_write_func_sampler_deps(ep, shader, func); ep_write_func_struct_deps(ep, shader, func); ep_write_func_func_deps(ep, shader, func, used_params); /* ------------------------------------ */ dstr_cat(shader, func->ret_type); dstr_cat(shader, " "); dstr_cat(shader, func->name); dstr_cat(shader, "("); for (i = 0; i < func->param_vars.num; i++) { struct ep_var *var = func->param_vars.array + i; if (i) dstr_cat(shader, ", "); ep_write_var(shader, var); } dstr_cat(shader, ")\n"); dstr_cat_dstr(shader, &func->contents); dstr_cat(shader, "\n"); } /* writes mapped vars used by the call as parameters for main */ static void ep_write_main_params(struct effect_parser *ep, struct dstr *shader, struct dstr *param_str, struct ep_func *func) { size_t i; bool empty_params = dstr_is_empty(param_str); for (i = 0; i < func->param_vars.num; i++) { struct ep_var *var = func->param_vars.array + i; struct ep_struct *st = NULL; bool mapped = (var->mapping != NULL); if (!mapped) { st = ep_getstruct(ep, var->type); if (st) mapped = ep_struct_mapped(st); } if (mapped) { dstr_cat(shader, var->type); dstr_cat(shader, " "); dstr_cat(shader, var->name); if (!st) { dstr_cat(shader, " : "); dstr_cat(shader, var->mapping); } if (!dstr_is_empty(param_str)) dstr_cat(param_str, ", "); dstr_cat(param_str, var->name); } } if (!empty_params) dstr_cat(param_str, ", "); } static void ep_write_main(struct effect_parser *ep, struct dstr *shader, struct ep_func *func, struct dstr *call_str) { struct dstr param_str; struct dstr adjusted_call; dstr_init(¶m_str); dstr_init_copy_dstr(&adjusted_call, call_str); dstr_cat(shader, "\n"); dstr_cat(shader, func->ret_type); dstr_cat(shader, " main("); ep_write_main_params(ep, shader, ¶m_str, func); dstr_cat(shader, ")"); if (func->mapping) { dstr_cat(shader, " : "); dstr_cat(shader, func->mapping); } dstr_cat(shader, "\n{\n\treturn "); dstr_cat_dstr(shader, &adjusted_call); dstr_cat(shader, "\n}\n"); dstr_free(&adjusted_call); dstr_free(¶m_str); } static inline void ep_reset_written(struct effect_parser *ep) { size_t i; for (i = 0; i < ep->params.num; i++) ep->params.array[i].written = false; for (i = 0; i < ep->structs.num; i++) ep->structs.array[i].written = false; for (i = 0; i < ep->funcs.num; i++) ep->funcs.array[i].written = false; for (i = 0; i < ep->samplers.num; i++) ep->samplers.array[i].written = false; } static void ep_makeshaderstring(struct effect_parser *ep, struct dstr *shader, struct darray *shader_call, struct darray *used_params) { struct cf_token *token = shader_call->array; struct cf_token *func_name; struct ep_func *func; struct dstr call_str; dstr_init(&call_str); if (!token) return; while (token->type != CFTOKEN_NONE && is_whitespace(*token->str.array)) token++; if (token->type == CFTOKEN_NONE || strref_cmp(&token->str, "NULL") == 0) return; func_name = token; while (token->type != CFTOKEN_NONE) { struct ep_param *param = ep_getparam_strref(ep, &token->str); if (param) ep_write_param(shader, param, used_params); dstr_cat_strref(&call_str, &token->str); token++; } func = ep_getfunc_strref(ep, &func_name->str); if (!func) return; ep_write_func(ep, shader, func, used_params); ep_write_main(ep, shader, func, &call_str); dstr_free(&call_str); ep_reset_written(ep); } static void ep_compile_annotations(struct darray *ep_annotations, struct darray *gsp_annotations, struct effect_parser *ep) { darray_resize(sizeof(struct gs_effect_param), gsp_annotations, ep_annotations->num); size_t i; for (i = 0; i < ep_annotations->num; i++) { struct gs_effect_param *param = ((struct gs_effect_param *)gsp_annotations->array) + i; struct ep_param *param_in = ((struct ep_param *)ep_annotations->array) + i; param->name = bstrdup(param_in->name); param->section = EFFECT_ANNOTATION; param->effect = ep->effect; da_move(param->default_val, param_in->default_val); param->type = get_effect_param_type(param_in->type); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) debug_param(param, param_in, i, "\t\t"); #endif } } static void ep_compile_param_annotations(struct ep_param *ep_param_input, struct gs_effect_param *gs_effect_input, struct effect_parser *ep) { ep_compile_annotations(&(ep_param_input->annotations.da), &(gs_effect_input->annotations.da), ep); } static void ep_compile_param(struct effect_parser *ep, size_t idx) { struct gs_effect_param *param; struct ep_param *param_in; param = ep->effect->params.array + idx; param_in = ep->params.array + idx; param_in->param = param; param->name = bstrdup(param_in->name); param->section = EFFECT_PARAM; param->effect = ep->effect; da_move(param->default_val, param_in->default_val); param->type = get_effect_param_type(param_in->type); if (strcmp(param_in->name, "ViewProj") == 0) ep->effect->view_proj = param; else if (strcmp(param_in->name, "World") == 0) ep->effect->world = param; #if defined(_DEBUG) && defined(_DEBUG_SHADERS) debug_param(param, param_in, idx, "\t"); #endif ep_compile_param_annotations(param_in, param, ep); } static bool ep_compile_pass_shaderparams(struct effect_parser *ep, struct darray *pass_params, struct darray *used_params, gs_shader_t *shader) { size_t i; darray_resize(sizeof(struct pass_shaderparam), pass_params, used_params->num); for (i = 0; i < pass_params->num; i++) { struct dstr *param_name; struct pass_shaderparam *param; param_name = darray_item(sizeof(struct dstr), used_params, i); param = darray_item(sizeof(struct pass_shaderparam), pass_params, i); param->eparam = gs_effect_get_param_by_name(ep->effect, param_name->array); param->sparam = gs_shader_get_param_by_name(shader, param_name->array); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) debug_param(param->eparam, 0, i, "\t\t\t\t"); #endif if (!param->sparam) { blog(LOG_ERROR, "Effect shader parameter not found"); return false; } } return true; } static inline bool ep_compile_pass_shader(struct effect_parser *ep, struct gs_effect_technique *tech, struct gs_effect_pass *pass, struct ep_pass *pass_in, size_t pass_idx, enum gs_shader_type type) { struct dstr shader_str; struct dstr location; struct darray used_params; /* struct dstr */ struct darray *pass_params = NULL; /* struct pass_shaderparam */ gs_shader_t *shader = NULL; bool success = true; dstr_init(&shader_str); darray_init(&used_params); dstr_init(&location); dstr_copy(&location, ep->cfp.lex.file); if (type == GS_SHADER_VERTEX) dstr_cat(&location, " (Vertex "); else if (type == GS_SHADER_PIXEL) dstr_cat(&location, " (Pixel "); /*else if (type == SHADER_GEOMETRY) dstr_cat(&location, " (Geometry ");*/ assert(pass_idx <= UINT_MAX); dstr_catf(&location, "shader, technique %s, pass %u)", tech->name, (unsigned)pass_idx); if (type == GS_SHADER_VERTEX) { ep_makeshaderstring(ep, &shader_str, &pass_in->vertex_program.da, &used_params); pass->vertshader = gs_vertexshader_create(shader_str.array, location.array, NULL); shader = pass->vertshader; pass_params = &pass->vertshader_params.da; } else if (type == GS_SHADER_PIXEL) { ep_makeshaderstring(ep, &shader_str, &pass_in->fragment_program.da, &used_params); pass->pixelshader = gs_pixelshader_create(shader_str.array, location.array, NULL); shader = pass->pixelshader; pass_params = &pass->pixelshader_params.da; } #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "\t\t\t%s Shader:", type == GS_SHADER_VERTEX ? "Vertex" : "Fragment"); blog(LOG_DEBUG, "\t\t\tCode:"); debug_print_string("\t\t\t\t\t", shader_str.array); blog(LOG_DEBUG, "\t\t\tParameters:"); #endif if (shader) success = ep_compile_pass_shaderparams(ep, pass_params, &used_params, shader); else success = false; dstr_free(&location); dstr_array_free(used_params.array, used_params.num); darray_free(&used_params); dstr_free(&shader_str); return success; } static bool ep_compile_pass(struct effect_parser *ep, struct gs_effect_technique *tech, struct ep_technique *tech_in, size_t idx) { struct gs_effect_pass *pass; struct ep_pass *pass_in; bool success = true; pass = tech->passes.array + idx; pass_in = tech_in->passes.array + idx; pass->name = bstrdup(pass_in->name); pass->section = EFFECT_PASS; #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "\t\t[%4lld] Pass '%s':", idx, pass->name); #endif if (!ep_compile_pass_shader(ep, tech, pass, pass_in, idx, GS_SHADER_VERTEX)) { success = false; blog(LOG_ERROR, "Pass (%zu) <%s> missing vertex shader!", idx, pass->name ? pass->name : ""); } if (!ep_compile_pass_shader(ep, tech, pass, pass_in, idx, GS_SHADER_PIXEL)) { success = false; blog(LOG_ERROR, "Pass (%zu) <%s> missing pixel shader!", idx, pass->name ? pass->name : ""); } return success; } static inline bool ep_compile_technique(struct effect_parser *ep, size_t idx) { struct gs_effect_technique *tech; struct ep_technique *tech_in; bool success = true; size_t i; tech = ep->effect->techniques.array + idx; tech_in = ep->techniques.array + idx; tech->name = bstrdup(tech_in->name); tech->section = EFFECT_TECHNIQUE; tech->effect = ep->effect; da_resize(tech->passes, tech_in->passes.num); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "\t[%4lld] Technique '%s' has %lld passes:", idx, tech->name, tech->passes.num); #endif for (i = 0; i < tech->passes.num; i++) { if (!ep_compile_pass(ep, tech, tech_in, i)) success = false; } return success; } static bool ep_compile(struct effect_parser *ep) { bool success = true; size_t i; assert(ep->effect); da_resize(ep->effect->params, ep->params.num); da_resize(ep->effect->techniques, ep->techniques.num); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "Shader has %lld parameters:", ep->params.num); #endif for (i = 0; i < ep->params.num; i++) ep_compile_param(ep, i); #if defined(_DEBUG) && defined(_DEBUG_SHADERS) blog(LOG_DEBUG, "Shader has %lld techniques:", ep->techniques.num); #endif for (i = 0; i < ep->techniques.num; i++) { if (!ep_compile_technique(ep, i)) success = false; } return success; }