Mercurial > MadButterfly
view tools/mb_c_source.m4 @ 210:3fadd2f2742e
M4 macros to generate code for dynamic loading.
- Introduce sprite.
- Add mb_sprite_t and mb_sprite_lsym_t
- mb_sprite_lsym_t is sprite with symbol that searched with linear search.
- Add mb_sprite_lsym_t as first member variable of sprite.
- Add symbol table to generated C code.
author | Thinker K.F. Li <thinker@branda.to> |
---|---|
date | Fri, 12 Dec 2008 00:33:54 +0800 |
parents | bcad1ccdf45c |
children | 5f144bab5de1 |
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changequote(`[', `]')dnl include([foreach.m4])dnl divert([-1]) define([UNQUOTE], [$*]) define([QUOTE], [[[$*]]]) define([COUNT],[ifelse([$*],[],0,[$#])]) define([IMPORT],[define([$1],[$2$1(]$[]@[)])]) define([D_COLOR_STOP],[ {$6,$2,$3,$4,$5}]) define([D_ADD_LINEAR_PAINT],[dnl ifelse(COUNT($6),0,,[dnl static const int n_$1_stops = COUNT($6); static const grad_stop_t $1_stops[[]] = {UNQUOTE($6)}; ])dnl ]) define([D_ADD_RADIAL_PAINT],[dnl ifelse(COUNT($5),0,,[dnl static const int n_$1_stops = COUNT($5); static const grad_stop_t $1_stops[[]] = {UNQUOTE($5)}; ])dnl ]) define([DECLARE_VARS], [divert([-1]) define([DIMPORT],[IMPORT(]QUOTE($[]1)[,[D_])]) DIMPORT([ADD_LINEAR_PAINT]) DIMPORT([ADD_RADIAL_PAINT]) DIMPORT([COLOR_STOP]) define([REF_STOPS_RADIAL]) define([REF_STOPS_LINEAR]) define([ADD_PATH]) define([ADD_RECT]) define([ADD_COORD]) define([ADD_TEXT],) define([FILL_SHAPE]) define([STROKE_SHAPE]) define([FILL_SHAPE_WITH_PAINT]) define([STROKE_SHAPE_WITH_PAINT]) define([STROKE_WIDTH]) define([GROUP_HIDE],) define([RECT_HIDE],) define([PATH_HIDE],) define([COORD_TRANSLATE],) define([COORD_MATRIX],) define([SHAPE_TRANSLATE],) define([SHAPE_MATRIX],) define([ADD_SYMBOL],) divert[]]) define([S_ADD_LINEAR_PAINT],[ obj->$1 = rdman_paint_linear_new(rdman, $2, $3, $4, $5); ifelse(COUNT($6),0,,[dnl stops = (grad_stop_t *)malloc(sizeof(grad_stop_t) * n_$1_stops); memcpy(stops, $1_stops, sizeof(grad_stop_t) * n_$1_stops); paint_linear_stops(obj->$1, n_$1_stops, stops); ])dnl ]) define([S_ADD_RADIAL_PAINT],[ obj->$1 = rdman_paint_radial_new(rdman, $2, $3, $4); ifelse(COUNT($5),0,,[ stops = (grad_stop_t *)malloc(sizeof(grad_stop_t) * n_$1_stops); memcpy(stops, $1_stops, sizeof(grad_stop_t) * n_$1_stops); paint_radial_stops(obj->$1, n_$1_stops, stops); ])dnl ]) define([S_COLOR_STOP],[]) define([S_REF_STOPS_RADIAL],[dnl [ stops = (grad_stop_t *)malloc(sizeof(grad_stop_t) * n_$2_stops); memcpy(stops, $2_stops, sizeof(grad_stop_t) * n_$2_stops); paint_radial_stops(obj->$1, n_$2_stops, stops); ]]) define([S_REF_STOPS_LINEAR],[dnl [ stops = (grad_stop_t *)malloc(sizeof(grad_stop_t) * n_$2_stops); memcpy(stops, $2_stops, sizeof(grad_stop_t) * n_$2_stops); paint_linear_stops(obj->$1, n_$2_stops, stops); ]]) define([S_ADD_RECT],[[ obj->$1 = rdman_shape_rect_new(rdman, $2, $3, $4, $5, $6, $7); rdman_add_shape(rdman, obj->$1, obj->$8); ]]) define([S_ADD_PATH],[[ { char _cmds[] = "$3"; float _args[] = {$4}; int _fix_args[] = {$6}; obj->$1 = rdman_shape_path_new_from_binary(rdman, _cmds,_args,$5,_fix_args,$7); rdman_add_shape(rdman, obj->$1, obj->$2); } ]]) define([S_ADD_COORD],[[ obj->$1 = rdman_coord_new(rdman, obj->$2); ]]) define([S_ADD_TEXT],[[ obj->$1 = rdman_shape_text_new(rdman, "$2", $3, $4, $5, cairo_get_font_face(rdman->cr)); rdman_add_shape(rdman, obj->$1, obj->$6); ]]) define([S_FILL_SHAPE_WITH_PAINT],[dnl [ rdman_paint_fill(rdman, obj->$2, obj->$1); ]]) define([S_STROKE_SHAPE_WITH_PAINT],[dnl [ rdman_paint_stroke(rdman, obj->$2, obj->$1); ]]) define([S_FILL_SHAPE],[dnl [ obj->$1_fill = rdman_paint_color_new(rdman, $2, $3, $4, $5); rdman_paint_fill(rdman, obj->$1_fill, obj->$1); ]]) define([S_STROKE_SHAPE],[dnl [ obj->$1_stroke = rdman_paint_color_new(rdman, $2, $3, $4, $5); rdman_paint_stroke(rdman, obj->$1_stroke, obj->$1); ]]) define([S_STROKE_WIDTH],[dnl [ obj->$1->stroke_width = $2; ]]) define([S_GROUP_HIDE],[dnl [ coord_hide(obj->$1); ]]) define([S_RECT_HIDE],[dnl [ sh_hide(obj->$1); ]]) define([S_PATH_HIDE],[dnl [ sh_hide(obj->$1); ]]) define([S_COORD_TRANSLATE],[dnl [ memset(obj->$1->matrix, 0, sizeof(obj->$1->matrix)); obj->$1->matrix[0] = 1; obj->$1->matrix[2] = $2; obj->$1->matrix[4] = 1; obj->$1->matrix[5] = $3; rdman_coord_changed(rdman, obj->$1); ]]) define([S_COORD_MATRIX],[dnl [ obj->$1->matrix[0] = $2; obj->$1->matrix[3] = $3; obj->$1->matrix[1] = $4; obj->$1->matrix[4] = $5; obj->$1->matrix[2] = $6; obj->$1->matrix[5] = $7; rdman_coord_changed(rdman, obj->$1); ]]) define([S_SHAPE_TRANSLATE],[dnl [ memset(obj->$1->matrix, 0, sizeof(obj->$1->matrix)); obj->$1->matrix[0] = 1; obj->$1->matrix[2] = $2; obj->$1->matrix[4] = 1; obj->$1->matrix[5] = $3; rdman_coord_changed(rdman, obj->$1); ]]) define([S_SHAPE_MATRIX],[dnl [ obj->$1->matrix[0] = $2; obj->$1->matrix[3] = $3; obj->$1->matrix[1] = $4; obj->$1->matrix[4] = $5; obj->$1->matrix[2] = $6; obj->$1->matrix[5] = $7; rdman_coord_changed(rdman, obj->$1); ]]) define([SETUP_VARS],[divert([-1]) define([SIMPORT],[IMPORT(]QUOTE($[]1)[,[S_])]) SIMPORT([ADD_LINEAR_PAINT]) SIMPORT([ADD_RADIAL_PAINT]) SIMPORT([COLOR_STOP]) SIMPORT([REF_STOPS_RADIAL]) SIMPORT([REF_STOPS_LINEAR]) SIMPORT([ADD_PATH],) SIMPORT([ADD_RECT]) SIMPORT([ADD_COORD]) SIMPORT([ADD_TEXT]) SIMPORT([FILL_SHAPE]) SIMPORT([STROKE_SHAPE]) SIMPORT([FILL_SHAPE_WITH_PAINT]) SIMPORT([STROKE_SHAPE_WITH_PAINT]) SIMPORT([STROKE_WIDTH]) SIMPORT([GROUP_HIDE]) SIMPORT([RECT_HIDE]) SIMPORT([PATH_HIDE]) SIMPORT([COORD_TRANSLATE]) SIMPORT([COORD_MATRIX]) SIMPORT([SHAPE_TRANSLATE]) SIMPORT([SHAPE_MATRIX]) define([ADD_SYMBOL],) divert[]]) define([F_ADD_LINEAR_PAINT],[[ stops = paint_linear_stops(obj->$1, 0, NULL); free(stops); rdman_paint_free(rdman, obj->$1); ]]) define([F_ADD_RADIAL_PAINT],[[ stops = paint_radial_stops(obj->$1, 0, NULL); free(stops); rdman_paint_free(rdman, obj->$1); ]]) define([F_ADD_PATH],[[ rdman_shape_free(rdman, obj->$1); ]]) define([F_ADD_RECT],[[ rdman_shape_free(rdman, obj->$1); ]]) define([F_ADD_TEXT],[[ rdman_shape_free(rdman, obj->$1); ]]) define([F_FILL_SHAPE],[[ rdman_paint_free(rdman, obj->$1_fill); ]]) define([F_STROKE_SHAPE],[[ rdman_paint_free(rdman, obj->$1_stroke); ]]) define([CLEAR_VARS],[divert([-1]) define([FIMPORT],[IMPORT(]QUOTE($[]1)[,[F_])]) FIMPORT([ADD_LINEAR_PAINT]) FIMPORT([ADD_RADIAL_PAINT]) define([COLOR_STOP]) define([REF_STOPS_RADIAL]) define([REF_STOPS_LINEAR]) FIMPORT([ADD_PATH],) FIMPORT([ADD_RECT]) define([ADD_COORD]) FIMPORT([ADD_TEXT]) FIMPORT([FILL_SHAPE]) FIMPORT([STROKE_SHAPE]) define([FILL_SHAPE_WITH_PAINT]) define([STROKE_SHAPE_WITH_PAINT]) define([STROKE_WIDTH]) define([GROUP_HIDE],) define([RECT_HIDE],) define([PATH_HIDE],) define([COORD_TRANSLATE],) define([COORD_MATRIX],) define([SHAPE_TRANSLATE],) define([SHAPE_MATRIX],) define([ADD_SYMBOL],) divert[]]) define([REVERSE_VARS],[divert([-1]) define([__REV_VAR],[]) define([PUSH_REV], [ pushdef([__REV_VAR]) define([__REV_VAR], ]QUOTE(QUOTE($[]1))[)]) define([POP_ALL_REV], [dnl ifelse(__REV_VAR, [], ,[UNQUOTE(__REV_VAR)[]dnl popdef([__REV_VAR])[]POP_ALL_REV[]])]) define([RIMPORT], [ define(]QUOTE($[]1)[, [PUSH_REV(]]QUOTE(QUOTE($[]1))[[(]QUOTE($[]@)[))]) ]) RIMPORT([ADD_LINEAR_PAINT]) RIMPORT([ADD_RADIAL_PAINT]) RIMPORT([COLOR_STOP]) RIMPORT([REF_STOPS_RADIAL]) RIMPORT([REF_STOPS_LINEAR]) RIMPORT([ADD_PATH]) RIMPORT([ADD_RECT]) RIMPORT([ADD_COORD]) RIMPORT([ADD_TEXT]) RIMPORT([FILL_SHAPE]) RIMPORT([STROKE_SHAPE]) RIMPORT([FILL_SHAPE_WITH_PAINT]) RIMPORT([STROKE_SHAPE_WITH_PAINT]) RIMPORT([STROKE_WIDTH]) RIMPORT([GROUP_HIDE]) RIMPORT([RECT_HIDE]) RIMPORT([PATH_HIDE]) RIMPORT([COORD_TRANSLATE]) RIMPORT([COORD_MATRIX]) RIMPORT([SHAPE_TRANSLATE]) RIMPORT([SHAPE_MATRIX]) define([ADD_SYMBOL],) divert[]dnl ]) define([Y_ADD_SYMBOL],[[{"$1", MB_SPRITE_OFFSET($1)},]]) define([DECLARE_SYMS], [divert([-1]) define([YIMPORT],[IMPORT(]QUOTE($[]1)[,[Y_])]) define([ADD_LINEAR_PAINT]) define([ADD_RADIAL_PAINT]) define([COLOR_STOP]) define([REF_STOPS_RADIAL]) define([REF_STOPS_LINEAR]) define([ADD_PATH]) define([ADD_RECT]) define([ADD_COORD]) define([ADD_TEXT],) define([FILL_SHAPE]) define([STROKE_SHAPE]) define([FILL_SHAPE_WITH_PAINT]) define([STROKE_SHAPE_WITH_PAINT]) define([STROKE_WIDTH]) define([GROUP_HIDE],) define([RECT_HIDE],) define([PATH_HIDE],) define([COORD_TRANSLATE],) define([COORD_MATRIX],) define([SHAPE_TRANSLATE],) define([SHAPE_MATRIX],) YIMPORT([ADD_SYMBOL]) divert[]dnl ]) define([MADBUTTERFLY],[dnl [#include <stdio.h> #include <stdlib.h> #include <string.h> #include <mb_types.h> #include <mb_redraw_man.h> #include <mb_shapes.h> #include <mb_paint.h> #include "$1.h" #ifdef MB_SPRITE_OFFSET #undef MB_SPRITE_OFFSET #endif #define MB_SPRITE_OFFSET(x) ((int)&((($1_t *)0)->x)) static mb_sprite_lsym_entry_t $1_symbols[] = {]DECLARE_SYMS $2[ }; #ifndef MB_LSYM_GET_OBJ_WITH_NAME #define MB_LSYM_GET_OBJ_WITH_NAME static mb_obj_t *mb_lsym_get_obj_with_name(mb_sprite_lsym_t *lsym, const char *sym) { int i; for(i = 0; i < lsym->num_entries; i++) { if(strcmp(lsym->entries[i].sym, sym) != 0) continue; return (mb_obj_t *)(((void *)lsym) + lsym->entries[i].offset); } return NULL; } #endif /* MB_LSYM_GET_OBJ_WITH_NAME */ void $1_free($1_t *); $1_t *$1_new(redraw_man_t *rdman, coord_t *parent_coord) { $1_t *obj; grad_stop_t *stops = NULL;]DECLARE_VARS $2[]dnl [ obj = ($1_t *)malloc(sizeof($1_t)); if(obj == NULL) return NULL; obj->lsym.sprite.free = (void (*)(mb_sprite_t))$1_free; obj->lsym.sprite.get_obj_with_name = (mb_obj_t *(*)(mb_sprite_t *, const char *))mb_lsym_get_obj_with_name; obj->lsym.num_entries = sizeof($1_symbols) / sizeof(mb_sprite_lsym_entry_t); obj->lsym.entries = $1_symbols; obj->rdman = rdman; ]SETUP_VARS[ obj->root_coord = rdman_coord_new(rdman, parent_coord);] $2 [ return obj; } void $1_free($1_t *obj) { grad_stop_t *stops = NULL; redraw_man_t *rdman; rdman = obj->rdman; ]REVERSE_VARS[]dnl divert([-1])dnl $2[]dnl divert[]dnl CLEAR_VARS[]dnl POP_ALL_REV[ rdman_coord_subtree_free(rdman, obj->root_coord); free(obj); } ]dnl ]) divert[]dnl