Part of the swftools package.
Copyright (c) 2001 Matthias Kramm <kramm@quiss.org>
-
+
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
#include "../lib/wav.h"
#include "parser.h"
#include "../lib/png.h"
+#include "swfc-feedback.h"
+#include "swfc-interpolation.h"
+#include "swfc-history.h"
//#define DEBUG
-
-static char * filename = 0;
static char * outputname = "output.swf";
static int verbose = 2;
static int optimize = 0;
static int override_outputname = 0;
static int do_cgi = 0;
+static int change_sets_all = 0;
static struct options_t options[] = {
{"h", "help"},
{"o", "output"},
{0,0}
};
-
+
int args_callback_option(char*name,char*val)
{
if(!strcmp(name, "V")) {
static char*text;
static int textlen;
static int type;
-static int line;
-static int column;
-
-static void syntaxerror(char*format, ...)
-{
- char buf[1024];
- va_list arglist;
- va_start(arglist, format);
- vsprintf(buf, format, arglist);
- va_end(arglist);
- fprintf(stderr, "\"%s\", line %d column %d: error- %s\n", filename, line, column, buf);
- exit(1);
-}
-
-static void warning(char*format, ...)
-{
- char buf[1024];
- va_list arglist;
- va_start(arglist, format);
- vsprintf(buf, format, arglist);
- va_end(arglist);
- fprintf(stderr, "\"%s\", line %d column %d: warning- %s\n", filename, line, column, buf);
-}
static void readToken()
{
return 0;
}
+enum
+{
+ PT_PUT = 0,
+ PT_CHANGE = 1,
+ PT_SCHANGE = 2,
+ PT_MOVE = 3,
+ PT_SMOVE = 4,
+ PT_SWEEP = 5,
+ PT_JUMP = 6,
+ PT_STARTCLIP = 7,
+ PT_BUTTON = 8
+};
+
// ------------------------------ swf routines ----------------------------
struct _character;
static struct level
/* for swf (0): */
SWF*swf;
- char*filename;
+ char*filename;
/* for sprites (1): */
TAG*tag;
static dictionary_t outlines;
static dictionary_t gradients;
static dictionary_t filters;
+static dictionary_t interpolations;
static char idmap[65536];
static TAG*tag = 0; //current tag
static dictionary_t instances;
static dictionary_t fonts;
static dictionary_t sounds;
+static dictionary_t fontUsage;
typedef struct _parameters {
- int x,y;
- float scalex, scaley;
+ int x,y;
+ float scalex, scaley;
CXFORM cxform;
float rotate;
float shear;
SPOINT pivot;
SPOINT pin;
U8 blendmode; //not interpolated
- FILTER*filter;
+ FILTERLIST* filters;
+ U16 set; // bits indicating wether a parameter was set in the c_placement function
+ U16 flags; // bits to toggle anything you may care to implement as a toggle
} parameters_t;
typedef struct _character {
character_t*character;
U16 depth;
parameters_t parameters;
- TAG* lastTag; //last tag which set the object
- U16 lastFrame; //frame lastTag is in
+ history_t* history;
} instance_t;
typedef struct _outline {
FILLSTYLE fs;
} texture_t;
+char* interpolationFunctions[] = {"linear", \
+ "quadIn", "quadOut", "quadInOut", \
+ "cubicIn", "cubicOut", "cubicInOut", \
+ "quartIn", "quartOut", "quartInOut", \
+ "quintIn", "quintOut", "quintInOut", \
+ "circleIn", "circleOut", "circleInOut", \
+ "exponentialIn", "exponentialOut", "exponentialInOut", \
+ "sineIn", "sineOut", "sineInOut", \
+ "elasticIn", "elasticOut", "elasticInOut", \
+ "backIn", "backOut", "backInOut", \
+ "bounceIn", "bounceOut", "bounceInOut", \
+ "fastBounceIn", "fastBounceOut", "fastBounceInOut"};
+
static void character_init(character_t*c)
{
memset(c, 0, sizeof(character_t));
}
+
static character_t* character_new()
{
character_t*c;
character_init(c);
return c;
}
+
static void instance_init(instance_t*i)
{
memset(i, 0, sizeof(instance_t));
+ i->history = history_new();
}
+
+static void instance_free(instance_t* i)
+{
+ history_free(i->history);
+ free(i);
+}
+
static instance_t* instance_new()
{
instance_t*c;
return c;
}
+static void free_instance(void* i)
+{
+ instance_free((instance_t*)i);
+}
+
+static void free_font(void* f)
+{
+ swf_FontFree((SWFFONT*)f);
+}
+
+static void gradient_free(GRADIENT* grad)
+{
+ free(grad->ratios);
+ free(grad->rgba);
+ free(grad);
+}
+
+static void free_gradient(void* grad)
+{
+ gradient_free((GRADIENT*) grad);
+}
+
+static void outline_free(outline_t* o)
+{
+ free(o->shape->data);
+ free(o->shape);
+ free(o);
+}
+
+static void free_outline(void* o)
+{
+ outline_free((outline_t*)o);
+}
+
+static void freeDictionaries()
+{
+ dictionary_free_all(&instances, free_instance);
+ dictionary_free_all(&characters, free);
+ dictionary_free_all(&images, free);
+ dictionary_free_all(&textures, free);
+ dictionary_free_all(&outlines, free_outline);
+ dictionary_free_all(&gradients, free_gradient);
+ dictionary_free_all(&filters, free);
+ dictionary_free_all(&fonts, free_font);
+ dictionary_free_all(&sounds, free);
+ dictionary_free_all(&interpolations, free);
+}
+
+static void freeFontDictionary()
+{
+ dictionary_free_all(&fonts, free_font);
+}
+
static void incrementid()
{
while(idmap[++id]) {
static void s_addcharacter(char*name, U16 id, TAG*ctag, SRECT r)
{
+ if(dictionary_lookup(&characters, name))
+ syntaxerror("character %s defined twice", name);
character_t* c = character_new();
-
+
c->definingTag = ctag;
c->id = id;
c->size = r;
- if(dictionary_lookup(&characters, name))
- syntaxerror("character %s defined twice", name);
dictionary_put2(&characters, name, c);
tag = swf_InsertTag(tag, ST_NAMECHARACTER);
}
static void s_addimage(char*name, U16 id, TAG*ctag, SRECT r)
{
+ if(dictionary_lookup(&images, name))
+ syntaxerror("image %s defined twice", name);
+
character_t* c = character_new();
c->definingTag = ctag;
c->id = id;
c->size = r;
-
- if(dictionary_lookup(&images, name))
- syntaxerror("image %s defined twice", name);
dictionary_put2(&images, name, c);
}
static instance_t* s_addinstance(char*name, character_t*c, U16 depth)
{
+ if(dictionary_lookup(&instances, name))
+ syntaxerror("object %s defined twice", name);
instance_t* i = instance_new();
i->character = c;
i->depth = depth;
//swf_GetMatrix(0, &i->matrix);
- if(dictionary_lookup(&instances, name))
- syntaxerror("object %s defined twice", name);
dictionary_put2(&instances, name, i);
return i;
}
static void parameters_clear(parameters_t*p)
{
- p->x = 0; p->y = 0;
+ p->x = 0; p->y = 0;
p->scalex = 1.0; p->scaley = 1.0;
p->pin.x = 0; //1??
p->pin.y = 0;
p->pivot.x = 0; p->pivot.y = 0;
- p->rotate = 0;
- p->shear = 0;
+ p->rotate = 0;
+ p->shear = 0;
p->blendmode = 0;
- p->filter = 0;
+ p->filters = 0;
swf_GetCXForm(0, &p->cxform, 1);
}
SPOINT h;
float sx,r1,r0,sy;
- /* /sx r1\ /x\
+ /* /sx r1\ /x\
* \r0 sy/ \y/
*/
- sx = p->scalex*cos(p->rotate/360*2*3.14159265358979);
- r1 = -p->scalex*sin(p->rotate/360*2*3.14159265358979)+sx*p->shear;
- r0 = p->scaley*sin(p->rotate/360*2*3.14159265358979);
- sy = p->scaley*cos(p->rotate/360*2*3.14159265358979)+r0*p->shear;
+ sx = p->scalex*cos(p->rotate/360*2*M_PI);
+ r1 = -p->scalex*sin(p->rotate/360*2*M_PI)+sx*p->shear;
+ r0 = p->scaley*sin(p->rotate/360*2*M_PI);
+ sy = p->scaley*cos(p->rotate/360*2*M_PI)+r0*p->shear;
m->sx = (int)(sx*65536+0.5);
m->r1 = (int)(r1*65536+0.5);
m->sy = (int)(sy*65536+0.5);
m->tx = m->ty = 0;
-
+
h = swf_TurnPoint(p->pin, m);
m->tx = p->x - h.x;
m->ty = p->y - h.y;
SRECT r;
makeMatrix(&m, p);
r = swf_TurnRect(rect, &m);
- if(currentrect.xmin == 0 && currentrect.ymin == 0 &&
+ if(currentrect.xmin == 0 && currentrect.ymin == 0 &&
currentrect.xmax == 0 && currentrect.ymax == 0)
currentrect = r;
else
return m;
}
+void initBuiltIns()
+{
+ interpolation_t* new;
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_LINEAR;
+ dictionary_put2(&interpolations, "linear", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUAD_IN;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quadIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUAD_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quadOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUAD_IN_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quadInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CUBIC_IN;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "cubicIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CUBIC_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "cubicOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CUBIC_IN_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "cubicInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUART_IN;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quartIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUART_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quartOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUART_IN_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quartInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUINT_IN;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quintIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUINT_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quintOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_QUINT_IN_OUT;
+ new->slope = 0;
+ dictionary_put2(&interpolations, "quintInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CIRCLE_IN;
+ dictionary_put2(&interpolations, "circleIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CIRCLE_OUT;
+ dictionary_put2(&interpolations, "circleOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_CIRCLE_IN_OUT;
+ dictionary_put2(&interpolations, "circleInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_EXPONENTIAL_IN;
+ dictionary_put2(&interpolations, "exponentialIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_EXPONENTIAL_OUT;
+ dictionary_put2(&interpolations, "exponentialOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_EXPONENTIAL_IN_OUT;
+ dictionary_put2(&interpolations, "exponentialInOut", new);
+
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_SINE_IN;
+ dictionary_put2(&interpolations, "sineIn", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_SINE_OUT;
+ dictionary_put2(&interpolations, "sineOut", new);
+ new = (interpolation_t*)malloc(sizeof(interpolation_t));
+ new->function = IF_SINE_IN_OUT;
+ dictionary_put2(&interpolations, "sineInOut", new);
+
+ RGBA c;
+ memset(&c, 0, sizeof(RGBA));
+ gradient_t* noGradient = (gradient_t*)malloc(sizeof(gradient_t));
+ noGradient->gradient.ratios = (U8*)malloc(16 * sizeof(U8));
+ noGradient->gradient.rgba = (RGBA*)malloc(16 * sizeof(RGBA));
+ noGradient->gradient.num = 2;
+ noGradient->gradient.rgba[0] = c;
+ noGradient->gradient.ratios[0] = 0;
+ noGradient->gradient.rgba[1] = c;
+ noGradient->gradient.ratios[1] = 255;
+ noGradient->radial = 0;
+ noGradient->rotate = 0;
+ dictionary_put2(&gradients, "no_gradient", noGradient);
+
+ noFilters = 0;
+// put a no_filters entry in the filters dictionary to provoce a message when a user tries
+// to define a no_filters filter. The real filter=no_filters case is handled in parseFilters.
+ FILTER* dummy = (FILTER*)malloc(sizeof(FILTER));
+ dictionary_put2(&filters, "no_filters", dummy);
+ noBlur = (FILTER_BLUR*) swf_NewFilter(FILTERTYPE_BLUR);
+ noBlur->passes = 1;
+ dictionary_put2(&filters, "no_blur", noBlur);
+ noBevel = (FILTER_BEVEL*) swf_NewFilter(FILTERTYPE_BEVEL);
+ noBevel->passes = 1;
+ noBevel->composite = 1;
+ dictionary_put2(&filters, "no_bevel", noBevel);
+ noDropshadow = (FILTER_DROPSHADOW*) swf_NewFilter(FILTERTYPE_DROPSHADOW);
+ noDropshadow->passes = 1;
+ noDropshadow->composite = 1;
+ dictionary_put2(&filters, "no_dropshadow", noDropshadow);
+ noGradientGlow = (FILTER_GRADIENTGLOW*) swf_NewFilter(FILTERTYPE_GRADIENTGLOW);
+ noGradientGlow->passes = 1;
+ noGradientGlow->composite = 1;
+ noGradientGlow->gradient = &noGradient->gradient;
+ dictionary_put2(&filters, "no_gradientglow", noGradientGlow);
+}
+
void s_swf(char*name, SRECT r, int version, int fps, int compress, RGBA background)
{
- SWF*swf = (SWF*)malloc(sizeof(SWF));
-
if(stackpos)
- syntaxerror(".swf blocks can't be nested");
+ syntaxerror(".swf blocks can't be nested");
+ if(stackpos==sizeof(stack)/sizeof(stack[0]))
+ syntaxerror("too many levels of recursion");
+
+ SWF*swf = (SWF*)malloc(sizeof(SWF));
memset(swf, 0, sizeof(swf));
swf->fileVersion = version;
swf->compressed = compress;
swf_SetRGB(tag,&background);
- if(stackpos==sizeof(stack)/sizeof(stack[0]))
- syntaxerror("too many levels of recursion");
-
dictionary_init(&characters);
dictionary_init(&images);
dictionary_init(&textures);
dictionary_init(&gradients);
dictionary_init(&filters);
dictionary_init(&instances);
- dictionary_init(&fonts);
dictionary_init(&sounds);
+ dictionary_init(&interpolations);
+ initBuiltIns();
+ cleanUp = &freeDictionaries;
memset(&stack[stackpos], 0, sizeof(stack[0]));
stack[stackpos].type = 0;
stack[stackpos].swf = swf;
stack[stackpos].oldframe = -1;
stackpos++;
- id = 0;
currentframe = 0;
memset(¤trect, 0, sizeof(currentrect));
currentdepth = 1;
-
+
memset(idmap, 0, sizeof(idmap));
incrementid();
}
stack[stackpos].tag = tag;
stack[stackpos].id = id;
stack[stackpos].name = strdup(name);
-
+
/* FIXME: those four fields should be bundled together */
dictionary_init(&instances);
currentframe = 0;
if(mybutton.endofshapes) {
syntaxerror("a .do may not precede a .show", character, character);
}
-
+
m = s_instancepos(c->size, &p);
r.id = c->id;
int flags[] = {BS_UP,BS_OVER,BS_DOWN,BS_HIT};
if(!mybutton.endofshapes) {
int t;
-
+
if(!mybutton.records[3].set) {
memcpy(&mybutton.records[3], &mybutton.records[0], sizeof(buttonrecord_t));
}
return;
}
setbuttonrecords(stack[stackpos-1].tag);
-
+
a = swf_ActionCompile(text, stack[0].swf->fileVersion);
if(!a) {
syntaxerror("Couldn't compile ActionScript");
setbuttonrecords(stack[stackpos-1].tag);
setactionend(stack[stackpos-1].tag);
stackpos--;
-
+
swf_ButtonPostProcess(stack[stackpos].tag, mybutton.nr_actions);
r = currentrect;
return save;
}
+static int parametersChange(history_t* history, int frame)
+{
+ int willChange = 0;
+
+ willChange = willChange || history_change(history, frame, "x");
+ willChange = willChange || history_change(history, frame, "y");
+ willChange = willChange || history_change(history, frame, "scalex");
+ willChange = willChange || history_change(history, frame, "scaley");
+ willChange = willChange || history_change(history, frame, "cxform.r0");
+ willChange = willChange || history_change(history, frame, "cxform.g0");
+ willChange = willChange || history_change(history, frame, "cxform.b0");
+ willChange = willChange || history_change(history, frame, "cxform.a0");
+ willChange = willChange || history_change(history, frame, "cxform.r1");
+ willChange = willChange || history_change(history, frame, "cxform.g1");
+ willChange = willChange || history_change(history, frame, "cxform.b1");
+ willChange = willChange || history_change(history, frame, "cxform.a1");
+ willChange = willChange || history_change(history, frame, "rotate");
+ willChange = willChange || history_change(history, frame, "shear");
+ willChange = willChange || history_change(history, frame, "pivot.x");
+ willChange = willChange || history_change(history, frame, "pivot.y");
+ willChange = willChange || history_change(history, frame, "pin.x");
+ willChange = willChange || history_change(history, frame, "pin.y");
+ willChange = willChange || history_change(history, frame, "blendmode");
+ willChange = willChange || history_changeFilter(history, frame);
+
+ return willChange;
+}
+
+static void free_filterlist(FILTERLIST* f_list)
+{
+ int i;
+ for (i = 0; i < f_list->num; i++)
+ {
+ if (f_list->filter[i]->type == FILTERTYPE_GRADIENTGLOW)
+ gradient_free(((FILTER_GRADIENTGLOW*)f_list->filter[i])->gradient);
+ free(f_list->filter[i]);
+ }
+ free(f_list);
+}
+
+static void readParameters(history_t* history, parameters_t* p, int frame)
+{
+ p->x = history_value(history, frame, "x");
+ p->y = history_value(history, frame, "y");
+ p->scalex = history_value(history, frame, "scalex");
+ p->scaley = history_value(history, frame, "scaley");
+ p->cxform.r0 = history_value(history, frame, "cxform.r0");
+ p->cxform.g0 = history_value(history, frame, "cxform.g0");
+ p->cxform.b0 = history_value(history, frame, "cxform.b0");
+ p->cxform.a0 = history_value(history, frame, "cxform.a0");
+ p->cxform.r1 = history_value(history, frame, "cxform.r1");
+ p->cxform.g1 = history_value(history, frame, "cxform.g1");
+ p->cxform.b1 = history_value(history, frame, "cxform.b1");
+ p->cxform.a1 = history_value(history, frame, "cxform.a1");
+ p->rotate = history_rotateValue(history, frame);
+ p->shear = history_value(history, frame, "shear");
+ p->pivot.x = history_value(history, frame, "pivot.x");
+ p->pivot.y = history_value(history, frame, "pivot.y");
+ p->pin.x = history_value(history, frame, "pin.x");
+ p->pin.y = history_value(history, frame, "pin.y");
+ p->blendmode = history_value(history, frame, "blendmode");
+ p->filters = history_filterValue(history, frame);
+}
+
+void setPlacement(TAG*tag, U16 id, U16 depth, MATRIX m, char*name, parameters_t*p, char move)
+{
+ SWFPLACEOBJECT po;
+ FILTERLIST flist;
+ swf_GetPlaceObject(NULL, &po);
+ po.id = id;
+ po.depth = depth;
+ po.matrix = m;
+ po.cxform = p->cxform;
+ po.name = name;
+ po.move = move;
+ if(move)
+ po.id = 0;
+ if(p->blendmode) {
+ po.blendmode = p->blendmode;
+ }
+ if (p->filters)
+ po.filters = p->filters;
+ swf_SetPlaceObject(tag, &po);
+}
+
+static void writeInstance(instance_t* i)
+{
+ parameters_t p;
+ MATRIX m;
+ int frame = i->history->firstFrame;
+ TAG* tag = i->history->firstTag;
+ history_processFlags(i->history);
+ while (frame < currentframe)
+ {
+ frame++;
+ while (tag->id != ST_SHOWFRAME)
+ tag = tag->next;
+ if (parametersChange(i->history, frame))
+ {
+ readParameters(i->history, &p, frame);
+ m = s_instancepos(i->character->size, &p);
+
+ if(p.blendmode || p.filters)
+ tag = swf_InsertTag(tag, ST_PLACEOBJECT3);
+ else
+ tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
+ setPlacement(tag, 0, i->depth, m, 0, &p, 1);
+ if (p.filters)
+ free_filterlist(p.filters);
+ }
+ else
+ tag = tag->next;
+ }
+}
+
+void dumpSWF(SWF*swf)
+{
+ TAG* tag = swf->firstTag;
+ printf("vvvvvvvvvvvvvvvvvvvvv\n");
+ while(tag) {
+ printf("%8d %s\n", tag->len, swf_TagGetName(tag));
+ tag = tag->next;
+ }
+ printf("^^^^^^^^^^^^^^^^^^^^^\n");
+}
+
static void s_endSprite()
{
SRECT r = currentrect;
-
+
if(stack[stackpos].cut)
tag = removeFromTo(stack[stackpos].cut, tag);
stackpos--;
-
- /* TODO: before clearing, prepend "<spritename>." to names and
- copy into old instances dict */
- dictionary_clear(&instances);
-
- currentframe = stack[stackpos].oldframe;
- currentrect = stack[stackpos].oldrect;
- currentdepth = stack[stackpos].olddepth;
- instances = stack[stackpos].oldinstances;
+ instance_t *i;
+ stringarray_t* index =dictionary_index(&instances);
+ int num;
+ for (num = 0; num < dictionary_count(&instances); num++)
+ {
+ char* name = stringarray_at(index, num);
+ if (name)
+ {
+ i = dictionary_lookup(&instances, name);
+ writeInstance(i);
+ }
+ }
+ while (tag->next)
+ tag = tag->next;
tag = swf_InsertTag(tag, ST_SHOWFRAME);
tag = swf_InsertTag(tag, ST_END);
tag = stack[stackpos].tag;
swf_FoldSprite(tag);
if(tag->next != 0)
- syntaxerror("internal error(7)");
+ syntaxerror("internal error(7)");
+ /* TODO: before clearing, prepend "<spritename>." to names and
+ copy into old instances dict */
+ dictionary_free_all(&instances, free_instance);
+
+ currentframe = stack[stackpos].oldframe;
+ currentrect = stack[stackpos].oldrect;
+ currentdepth = stack[stackpos].olddepth;
+ instances = stack[stackpos].oldinstances;
s_addcharacter(stack[stackpos].name, stack[stackpos].id, stack[stackpos].tag, r);
free(stack[stackpos].name);
int fi;
SWF* swf;
char*filename;
-
+
+ instance_t *i;
+ stringarray_t* index = dictionary_index(&instances);
+ int num;
+ for (num = 0; num < dictionary_count(&instances); num++)
+ {
+ char* name = stringarray_at(index, num);
+ if (name)
+ {
+ i = dictionary_lookup(&instances, name);
+ writeInstance(i);
+ }
+ }
+
if(stack[stackpos].cut)
tag = removeFromTo(stack[stackpos].cut, tag);
stackpos--;
-
+
swf = stack[stackpos].swf;
filename = stack[stackpos].filename;
-
+
//if(tag->prev && tag->prev->id != ST_SHOWFRAME)
// tag = swf_InsertTag(tag, ST_SHOWFRAME);
tag = swf_InsertTag(tag, ST_SHOWFRAME);
tag = swf_InsertTag(tag, ST_END);
swf_OptimizeTagOrder(swf);
-
+
if(optimize) {
swf_Optimize(swf);
}
-
+
if(!(swf->movieSize.xmax-swf->movieSize.xmin) || !(swf->movieSize.ymax-swf->movieSize.ymin)) {
swf->movieSize = currentrect; /* "autocrop" */
}
-
+
if(!(swf->movieSize.xmax-swf->movieSize.xmin) || !(swf->movieSize.ymax-swf->movieSize.ymin)) {
swf->movieSize.xmax += 20; /* 1 by 1 pixels */
swf->movieSize.ymax += 20;
warning("Empty bounding box for movie");
}
-
+
if(do_cgi || !strcmp(filename, "-"))
fi = fileno(stdout);
else
}
if(do_cgi)
{if(swf_WriteCGI(swf)<0) syntaxerror("WriteCGI() failed.\n");}
- else if(swf->compressed)
- {if(swf_WriteSWC(fi, swf)<0) syntaxerror("WriteSWC() failed.\n");}
else
{if(swf_WriteSWF(fi, swf)<0) syntaxerror("WriteSWF() failed.\n");}
close(fi);
-
- dictionary_clear(&instances);
- dictionary_clear(&characters);
- dictionary_clear(&images);
- dictionary_clear(&textures);
- dictionary_clear(&outlines);
- dictionary_clear(&gradients); // mem leak
- dictionary_clear(&filters);
- dictionary_clear(&fonts);
- dictionary_clear(&sounds);
+
+ freeDictionaries();
swf_FreeTags(swf);
free(swf);
int t;
TAG*now = tag;
- if(nr<1)
+ if(nr<1)
syntaxerror("Illegal frame number");
nr--; // internally, frame 1 is frame 0
MATRIX rot,m;
double ccos,csin;
swf_GetMatrix(0, &rot);
- ccos = cos(-gradient->rotate*2*3.14159265358979/360);
- csin = sin(-gradient->rotate*2*3.14159265358979/360);
+ ccos = cos(-gradient->rotate*2*M_PI/360);
+ csin = sin(-gradient->rotate*2*M_PI/360);
rot.sx = ccos*65536;
rot.r1 = -csin*65536;
rot.r0 = csin*65536;
return 0;
}
}
-
+
RGBA black={r:0,g:0,b:0,a:0};
void s_box(char*name, int width, int height, RGBA color, int linewidth, char*texture)
{
swf_ShapeSetLine(tag,s,0,-height);
swf_ShapeSetEnd(tag);
swf_ShapeFree(s);
-
+
s_addcharacter(name, id, tag, r);
incrementid();
}
}
if(texture)
fs1 = addFillStyle(s, &r2, texture);
-
+
swf_SetU16(tag,id);
rect.xmin = r2.xmin-linewidth/2;
rect.ymin = r2.ymin-linewidth/2;
swf_SetRect(tag,&rect);
swf_SetShapeStyles(tag, s);
swf_ShapeCountBits(s,0,0);
- swf_RecodeShapeData(outline->shape->data, outline->shape->bitlen, outline->shape->bits.fill, outline->shape->bits.line,
+ swf_RecodeShapeData(outline->shape->data, outline->shape->bitlen, outline->shape->bits.fill, outline->shape->bits.line,
&s->data, &s->bitlen, s->bits.fill, s->bits.line);
swf_SetShapeBits(tag, s);
swf_SetBlock(tag, s->data, (s->bitlen+7)/8);
swf_ShapeSetCircle(tag, s, r,r,r,r);
swf_ShapeSetEnd(tag);
swf_ShapeFree(s);
-
+
s_addcharacter(name, id, tag, rect);
incrementid();
}
font = dictionary_lookup(&fonts, fontname);
if(!font)
syntaxerror("font \"%s\" not known!", fontname);
-
+
if(text[0] >= font->maxascii || font->ascii2glyph[text[0]]<0) {
warning("no character 0x%02x (%c) in font \"%s\"", text[0], text[0], fontname);
s_box(name, 0, 0, black, 20, 0);
memset(outline, 0, sizeof(outline_t));
outline->shape = font->glyph[g].shape;
outline->bbox = font->layout->bounds[g];
-
+
{
drawer_t draw;
swf_Shape11DrawerInit(&draw, 0);
font = dictionary_lookup(&fonts, fontname);
if(!font)
syntaxerror("font \"%s\" not known!", fontname);
-
+
tag = swf_InsertTag(tag, ST_DEFINETEXT2);
swf_SetU16(tag, id);
if(!font->numchars) {
swf_SetU32(tag, 0);//sharpness
swf_SetU8(tag, 0);//reserved
}
-
+
s_addcharacter(name, id, tag, r);
incrementid();
}
MATRIX _m,*m=0;
memset(&r, 0, sizeof(r));
-
+
tag = swf_InsertTag(tag, ST_DEFINEMOVIE);
swf_SetU16(tag, id);
swf_SetString(tag, url);
-
+
s_addcharacter(name, id, tag, r);
incrementid();
}
r.ymin = 0;
r.xmax = width;
r.ymax = height;
-
+
swf_SetEditText(tag, flags, r, text, color, maxlength, font?font->id:0, size, &layout, variable);
s_addcharacter(name, id, tag, r);
{
/* an image is actually two folded: 1st bitmap, 2nd character.
Both of them can be used separately */
-
+
/* step 1: the bitmap */
SRECT r;
int imageID = id;
tag = swf_InsertTag(tag, ST_DEFINEBITSLOSSLESS);
swf_SetU16(tag, imageID);
swf_SetLosslessImage(tag, data, width, height);
+ free(data);
r.xmin = 0;
r.ymin = 0;
void s_texture(char*name, char*object, int x, int y, float scalex, float scaley, float rotate, float shear)
{
+ if(dictionary_lookup(&textures, name))
+ syntaxerror("texture %s defined twice", name);
gradient_t* gradient = dictionary_lookup(&gradients, object);
character_t* bitmap = dictionary_lookup(&images, object);
texture_t* texture = (texture_t*)rfx_calloc(sizeof(texture_t));
fs->m.sy *= 20;
}
-
- if(dictionary_lookup(&textures, name))
- syntaxerror("texture %s defined twice", name);
dictionary_put2(&textures, name, texture);
}
-void dumpSWF(SWF*swf)
-{
- TAG* tag = swf->firstTag;
- printf("vvvvvvvvvvvvvvvvvvvvv\n");
- while(tag) {
- printf("%8d %s\n", tag->len, swf_TagGetName(tag));
- tag = tag->next;
- }
- printf("^^^^^^^^^^^^^^^^^^^^^\n");
-}
-
void s_font(char*name, char*filename)
{
SWFFONT* font;
- font = swf_LoadFont(filename);
-
- if(font == 0) {
- warning("Couldn't open font file \"%s\"", filename);
- font = (SWFFONT*)malloc(sizeof(SWFFONT));
- memset(font, 0, sizeof(SWFFONT));
- dictionary_put2(&fonts, name, font);
- return;
- }
-
+ font = dictionary_lookup(&fonts, name);
if(0)
{
/* fix the layout. Only needed for old fonts */
font->layout = 0;
swf_FontCreateLayout(font);
}
- /* just in case this thing is used in .edittext later on */
- swf_FontPrepareForEditText(font);
-
font->id = id;
+ swf_FontReduce_swfc(font);
tag = swf_InsertTag(tag, ST_DEFINEFONT2);
swf_FontSetDefine2(tag, font);
tag = swf_InsertTag(tag, ST_EXPORTASSETS);
swf_SetU16(tag, 1);
swf_SetU16(tag, id);
swf_SetString(tag, name);
- incrementid();
- if(dictionary_lookup(&fonts, name))
- syntaxerror("font %s defined twice", name);
- dictionary_put2(&fonts, name, font);
+ incrementid();
}
struct MP3 mp3;
sound_t* sound;
U16*samples = NULL;
- unsigned numsamples;
+ unsigned numsamples = 1;
unsigned blocksize = 1152;
int is_mp3 = 0;
- if(wav_read(&wav, filename)) {
+ if(dictionary_lookup(&sounds, name))
+ syntaxerror("sound %s defined twice", name);
+
+ if(wav_read(&wav, filename))
+ {
int t;
- wav_convert2mono(&wav, &wav2, 44100);
- samples = (U16*)wav2.data;
- numsamples = wav2.size/2;
- free(wav.data);
+ wav_convert2mono(&wav, &wav2, 44100);
+ samples = (U16*)wav2.data;
+ numsamples = wav2.size/2;
+ free(wav.data);
#ifdef WORDS_BIGENDIAN
/* swap bytes */
- for(t=0;t<numsamples;t++) {
- samples[t] = (samples[t]>>8)&0xff | (samples[t]<<8)&0xff00;
- }
+ for(t=0;t<numsamples;t++)
+ samples[t] = (samples[t]>>8)&0xff | (samples[t]<<8)&0xff00;
#endif
- } else if(mp3_read(&mp3, filename)) {
- fprintf(stderr, "\"%s\" seems to work as a MP3 file...\n", filename);
- blocksize = 1;
- is_mp3 = 1;
}
else
- {
- warning("Couldn't read WAV/MP3 file \"%s\"", filename);
- samples = 0;
- numsamples = 0;
- }
-
+ if(mp3_read(&mp3, filename))
+ {
+ fprintf(stderr, "\"%s\" seems to work as a MP3 file...\n", filename);
+ blocksize = 1;
+ is_mp3 = 1;
+ }
+ else
+ {
+ warning("Couldn't read WAV/MP3 file \"%s\"", filename);
+ samples = 0;
+ numsamples = 0;
+ }
+
if(numsamples%blocksize != 0)
{
// apply padding, so that block is a multiple of blocksize
- int numblocks = (numsamples+blocksize-1)/blocksize;
- int numsamples2;
- U16* samples2;
- numsamples2 = numblocks * blocksize;
- samples2 = malloc(sizeof(U16)*numsamples2);
- memcpy(samples2, samples, numsamples*sizeof(U16));
- memset(&samples2[numsamples], 0, sizeof(U16)*(numsamples2 - numsamples));
- numsamples = numsamples2;
- samples = samples2;
+ int numblocks = (numsamples+blocksize-1)/blocksize;
+ int numsamples2;
+ U16* samples2;
+ numsamples2 = numblocks * blocksize;
+ samples2 = malloc(sizeof(U16)*numsamples2);
+ memcpy(samples2, samples, numsamples*sizeof(U16));
+ memset(&samples2[numsamples], 0, sizeof(U16)*(numsamples2 - numsamples));
+ numsamples = numsamples2;
+ free(samples);
+ samples = samples2;
}
tag = swf_InsertTag(tag, ST_DEFINESOUND);
mp3.SampRate,
mp3.Channels,
mp3.NumFrames);
- mp3_clear(&mp3);
+ mp3_clear(&mp3);
}
else
- {
swf_SetSoundDefine(tag, samples, numsamples);
- }
-
+
tag = swf_InsertTag(tag, ST_NAMECHARACTER);
swf_SetU16(tag, id);
swf_SetString(tag, name);
sound->tag = tag;
sound->id = id;
- if(dictionary_lookup(&sounds, name))
- syntaxerror("sound %s defined twice", name);
dictionary_put2(&sounds, name, sound);
-
+
incrementid();
- if(samples)
- free(samples);
+ if (samples)
+ free(samples);
}
static char* gradient_getToken(const char**p)
char*result;
while(**p && strchr(" \t\n\r", **p)) {
(*p)++;
- }
+ }
start = *p;
while(**p && !strchr(" \t\n\r", **p)) {
(*p)++;
memset(&gradient, 0, sizeof(GRADIENT));
gradient.ratios = rfx_calloc(16*sizeof(U8));
gradient.rgba = rfx_calloc(16*sizeof(RGBA));
- while(*p) {
- char*posstr,*colorstr;
- int pos;
- RGBA color;
- posstr = gradient_getToken(&p);
- if(!*posstr)
- break;
- pos = (int)(parsePercent(posstr)*255.0);
- if(pos == lastpos)
- pos++;
- if(!*p) syntaxerror("Error in shape data: Color expected after %s", posstr);
- colorstr = gradient_getToken(&p);
- color = parseColor(colorstr);
- if(gradient.num == 16) {
- warning("gradient record too big- max size is 16, rest ignored");
- break;
+
+ while(*p)
+ {
+ char*posstr,*colorstr;
+ int pos;
+ RGBA color;
+ posstr = gradient_getToken(&p);
+ if(!*posstr)
+ {
+ free(posstr);
+ break;
+ }
+ pos = (int)(parsePercent(posstr)*255.0);
+ if(pos == lastpos)
+ pos++;
+ if(!*p)
+ {
+ rfx_free(gradient.ratios);
+ rfx_free(gradient.rgba);
+ free(posstr);
+ syntaxerror("Error in shape data: Color expected after %s", posstr);
+ }
+ colorstr = gradient_getToken(&p);
+ color = parseColor(colorstr);
+ if(gradient.num == 16)
+ {
+ warning("gradient record too big- max size is 16, rest ignored");
+ break;
+ }
+ gradient.ratios[gradient.num] = pos;
+ gradient.rgba[gradient.num] = color;
+ gradient.num++;
+ free(posstr);
+ free(colorstr);
+ lastpos = pos;
}
- gradient.ratios[gradient.num] = pos;
- gradient.rgba[gradient.num] = color;
- gradient.num++;
- free(posstr);
- free(colorstr);
- lastpos = pos;
- }
return gradient;
}
+FILTERLIST* parseFilters(char* list)
+{
+ if (!strcmp(list, "no_filters"))
+ return 0;
+ FILTER* f;
+ FILTERLIST* f_list = (FILTERLIST*)malloc(sizeof(FILTERLIST));
+ f_list->num = 0;
+ char* f_start = list;
+ char* f_end;
+ while (f_start)
+ {
+ f_end = strchr(f_start, ',');
+ if (f_end)
+ *f_end = '\0';
+ f = dictionary_lookup(&filters, f_start);
+ if (!f)
+ {
+ free(f_list);
+ syntaxerror("unknown filter %s", f_start);
+ }
+ if (f_list->num == 8)
+ {
+ warning("too many filters in filterlist, no more than 8 please, rest ignored");
+ break;
+ }
+ f_list->filter[f_list->num] = f;
+ f_list->num++;
+ if (f_end)
+ {
+ *f_end = ',';
+ f_start = f_end + 1;
+ }
+ else
+ f_start = 0;
+ }
+ return f_list;
+}
+
void s_gradient(char*name, const char*text, int radial, int rotate)
{
gradient_t* gradient;
gradient->radial = radial;
gradient->rotate = rotate;
- if(dictionary_lookup(&gradients, name))
- syntaxerror("gradient %s defined twice", name);
dictionary_put2(&gradients, name, gradient);
}
-
-void s_gradientglow(char*name, char*gradient, float blurx, float blury,
- float angle, float distance, float strength, char innershadow,
+
+void s_gradientglow(char*name, char*gradient, float blurx, float blury,
+ float angle, float distance, float strength, char innershadow,
char knockout, char composite, char ontop, int passes)
{
+ if(dictionary_lookup(&filters, name))
+ syntaxerror("filter %s defined twice", name);
+
gradient_t* g = dictionary_lookup(&gradients, gradient);
+ if(!g)
+ syntaxerror("unknown gradient %s", gradient);
composite = 1;
- if(!g)
- syntaxerror("unknown gradient %s", gradient);
FILTER_GRADIENTGLOW* filter = rfx_calloc(sizeof(FILTER_GRADIENTGLOW));
filter->type = FILTERTYPE_GRADIENTGLOW;
filter->gradient = &g->gradient;
filter->ontop = ontop;
filter->passes = passes;
- if(dictionary_lookup(&filters, name))
- syntaxerror("filter %s defined twice", name);
dictionary_put2(&filters, name, filter);
}
void s_dropshadow(char*name, RGBA color, double blurx, double blury, double angle, double distance, double strength, char innershadow, char knockout, char composite, int passes)
{
+ if(dictionary_lookup(&filters, name))
+ syntaxerror("filter %s defined twice", name);
+
composite = 1;
FILTER_DROPSHADOW* filter = rfx_calloc(sizeof(FILTER_DROPSHADOW));
filter->type = FILTERTYPE_DROPSHADOW;
filter->composite = composite;
filter->passes = passes;
- if(dictionary_lookup(&filters, name))
- syntaxerror("filter %s defined twice", name);
dictionary_put2(&filters, name, filter);
}
void s_bevel(char*name, RGBA shadow, RGBA highlight, double blurx, double blury, double angle, double distance, double strength, char innershadow, char knockout, char composite, char ontop, int passes)
{
+ if(dictionary_lookup(&filters, name))
+ syntaxerror("filter %s defined twice", name);
+
composite = 1;
FILTER_BEVEL* filter = rfx_calloc(sizeof(FILTER_BEVEL));
filter->type = FILTERTYPE_BEVEL;
filter->ontop = ontop;
filter->passes = passes;
- if(dictionary_lookup(&filters, name))
- syntaxerror("filter %s defined twice", name);
dictionary_put2(&filters, name, filter);
}
void s_blur(char*name, double blurx, double blury, int passes)
{
+ if(dictionary_lookup(&filters, name))
+ syntaxerror("filter %s defined twice", name);
+
FILTER_BLUR* filter = rfx_calloc(sizeof(FILTER_BLUR));
filter->type = FILTERTYPE_BLUR;
filter->blurx = blurx;
filter->blury = blury;
filter->passes = passes;
- if(dictionary_lookup(&filters, name))
- syntaxerror("filter %s defined twice", name);
dictionary_put2(&filters, name, filter);
}
{
ActionTAG* a = 0;
a = swf_ActionCompile(text, stack[0].swf->fileVersion);
- if(!a) {
- syntaxerror("Couldn't compile ActionScript");
+ if(!a)
+ {
+ swf_ActionFree(a);
+ syntaxerror("Couldn't compile ActionScript");
}
tag = swf_InsertTag(tag, ST_DOACTION);
ActionTAG* a = 0;
character_t*c = 0;
a = swf_ActionCompile(text, stack[0].swf->fileVersion);
- if(!a) {
- syntaxerror("Couldn't compile ActionScript");
+ if(!a)
+ {
+ swf_ActionFree(a);
+ syntaxerror("Couldn't compile ActionScript");
}
c = (character_t*)dictionary_lookup(&characters, character);
{
ActionTAG* a = 0;
instance_t* object = 0;
- if(name)
+ if(name)
object = (instance_t*)dictionary_lookup(&instances, name);
if(!object && name && *name) {
/* we have a name, but couldn't find it. Abort. */
void s_outline(char*name, char*format, char*source)
{
+ if(dictionary_lookup(&outlines, name))
+ syntaxerror("outline %s defined twice", name);
+
outline_t* outline;
drawer_t draw;
SHAPE* shape;
SHAPE2* shape2;
SRECT bounds;
-
+
//swf_Shape10DrawerInit(&draw, 0);
swf_Shape11DrawerInit(&draw, 0);
shape = swf_ShapeDrawerToShape(&draw);
bounds = swf_ShapeDrawerGetBBox(&draw);
draw.dealloc(&draw);
-
+
outline = (outline_t*)rfx_calloc(sizeof(outline_t));
outline->shape = shape;
outline->bbox = bounds;
-
- if(dictionary_lookup(&outlines, name))
- syntaxerror("outline %s defined twice", name);
+
dictionary_put2(&outlines, name, outline);
}
int level = 0;
U16 cutout[] = {ST_SETBACKGROUNDCOLOR, ST_PROTECT, ST_FREEALL, ST_REFLEX};
f = open(filename,O_RDONLY|O_BINARY);
- if (f<0) {
+ if (f<0) {
warning("Couldn't open file \"%s\": %s", filename, strerror(errno));
s_box(name, 0, 0, black, 20, 0);
return;
}
- if (swf_ReadSWF(f,&swf)<0) {
+ if (swf_ReadSWF(f,&swf)<0) {
warning("Only SWF files supported in .shape for now. File \"%s\" wasn't SWF.", filename);
s_box(name, 0, 0, black, 20, 0);
return;
}
close(f);
- /* FIXME: The following sets the bounding Box for the character.
+ /* FIXME: The following sets the bounding Box for the character.
It is wrong for two reasons:
a) It may be too small (in case objects in the movie clip at the borders)
b) it may be too big (because the poor movie never got autocropped)
*/
r = swf.movieSize;
-
+
s = tag = swf_InsertTag(tag, ST_DEFINESPRITE);
swf_SetU16(tag, id);
swf_SetU16(tag, swf.frameCount);
if(ftag->id != ST_SETBACKGROUNDCOLOR) {
/* We simply dump all tags right after the sprite
header, relying on the fact that swf_OptimizeTagOrder() will
- sort things out for us later.
+ sort things out for us later.
We also rely on the fact that the imported SWF is well-formed.
*/
tag = swf_InsertTag(tag, ftag->id);
if(!c) syntaxerror("internal error(5)");
return c->size;
}
-parameters_t s_getParameters(char*name)
+void s_getParameters(char*name, parameters_t* p)
{
instance_t * i = dictionary_lookup(&instances, name);
- if(!i) syntaxerror("instance '%s' unknown(10)", name);
- return i->parameters;
+ if(!i)
+ syntaxerror("instance '%s' unknown(10)", name);
+ if (change_sets_all)
+ readParameters(i->history, p, currentframe);
+ else
+ *p = i->parameters;
}
void s_startclip(char*instance, char*character, parameters_t p)
{
i = s_addinstance(instance, c, currentdepth);
i->parameters = p;
m = s_instancepos(i->character->size, &p);
-
+
tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
/* TODO: should be ObjectPlaceClip, with clipdepth backpatched */
swf_ObjectPlace(tag, c->id, currentdepth, &m, &p.cxform, instance);
- i->lastTag = tag;
- i->lastFrame= currentframe;
stack[stackpos].tag = tag;
stack[stackpos].type = 2;
currentdepth++;
}
-void setPlacement(TAG*tag, U16 id, U16 depth, MATRIX m, char*name, parameters_t*p, char move)
-{
- SWFPLACEOBJECT po;
- FILTERLIST flist;
- swf_GetPlaceObject(NULL, &po);
- po.id = id;
- po.depth = depth;
- po.matrix = m;
- po.cxform = p->cxform;
- po.name = name;
- po.move = move;
- if(move)
- po.id = 0;
- if(p->blendmode) {
- po.blendmode = p->blendmode;
- }
- if(p->filter) {
- flist.num = 1;
- flist.filter[0] = p->filter;
- po.filters = &flist;
- }
- swf_SetPlaceObject(tag, &po);
+void setStartparameters(instance_t* i, parameters_t* p, TAG* tag)
+{
+ history_begin(i->history, "x", currentframe, tag, p->x);
+ history_begin(i->history, "y", currentframe, tag, p->y);
+ history_begin(i->history, "scalex", currentframe, tag, p->scalex);
+ history_begin(i->history, "scaley", currentframe, tag, p->scaley);
+ history_begin(i->history, "cxform.r0", currentframe, tag, p->cxform.r0);
+ history_begin(i->history, "cxform.g0", currentframe, tag, p->cxform.g0);
+ history_begin(i->history, "cxform.b0", currentframe, tag, p->cxform.b0);
+ history_begin(i->history, "cxform.a0", currentframe, tag, p->cxform.a0);
+ history_begin(i->history, "cxform.r1", currentframe, tag, p->cxform.r1);
+ history_begin(i->history, "cxform.g1", currentframe, tag, p->cxform.g1);
+ history_begin(i->history, "cxform.b1", currentframe, tag, p->cxform.b1);
+ history_begin(i->history, "cxform.a1", currentframe, tag, p->cxform.a1);
+ history_begin(i->history, "rotate", currentframe, tag, p->rotate);
+ history_begin(i->history, "shear", currentframe, tag, p->shear);
+ history_begin(i->history, "pivot.x", currentframe, tag, p->pivot.x);
+ history_begin(i->history, "pivot.y", currentframe, tag, p->pivot.y);
+ history_begin(i->history, "pin.x", currentframe, tag, p->pin.x);
+ history_begin(i->history, "pin.y", currentframe, tag, p->pin.y);
+ history_begin(i->history, "blendmode", currentframe, tag, p->blendmode);
+ history_beginFilter(i->history, currentframe, tag, p->filters);
+ history_begin(i->history, "flags", currentframe, tag, 0);
}
void s_put(char*instance, char*character, parameters_t p)
character_t* c = dictionary_lookup(&characters, character);
instance_t* i;
MATRIX m;
- if(!c) {
- syntaxerror("character %s not known (in .put %s=%s)", character, instance, character);
- }
-
+ if(!c)
+ syntaxerror("character %s not known (in .put %s=%s)", character, instance, character);
+
i = s_addinstance(instance, c, currentdepth);
i->parameters = p;
m = s_instancepos(i->character->size, &p);
-
- if(p.blendmode || p.filter) {
- if(stack[0].swf->fileVersion < 8) {
- if(p.blendmode) warning("blendmodes only supported for flash version>=8");
- else warning("filters only supported for flash version>=8");
+
+ if(p.blendmode || p.filters)
+ {
+ if(stack[0].swf->fileVersion < 8)
+ {
+ if(p.blendmode)
+ warning("blendmodes only supported for flash version>=8");
+ else
+ warning("filters only supported for flash version>=8");
+ }
+ tag = swf_InsertTag(tag, ST_PLACEOBJECT3);
}
- tag = swf_InsertTag(tag, ST_PLACEOBJECT3);
- } else {
- tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
- }
+ else
+ tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
setPlacement(tag, c->id, currentdepth, m, instance, &p, 0);
-
- i->lastTag = tag;
- i->lastFrame = currentframe;
+ setStartparameters(i, &p, tag);
currentdepth++;
-
}
-void s_jump(char*instance, parameters_t p)
+void recordChanges(history_t* history, parameters_t p, int changeFunction, interpolation_t* inter)
{
- instance_t* i = dictionary_lookup(&instances, instance);
- MATRIX m;
- if(!i) {
- syntaxerror("instance %s not known", instance);
+ if (p.set & SF_X)
+ history_remember(history, "x", currentframe, changeFunction, p.x, inter);
+ if (p.set & SF_Y)
+ history_remember(history, "y", currentframe, changeFunction, p.y, inter);
+ if (p.set & SF_SCALEX)
+ history_remember(history, "scalex", currentframe, changeFunction, p.scalex, inter);
+ if (p.set & SF_SCALEY)
+ history_remember(history, "scaley", currentframe, changeFunction, p.scaley, inter);
+ if (p.set & SF_CX_R)
+ {
+ history_remember(history, "cxform.r0", currentframe, changeFunction, p.cxform.r0, inter);
+ history_remember(history, "cxform.r1", currentframe, changeFunction, p.cxform.r1, inter);
}
-
- i->parameters = p;
- m = s_instancepos(i->character->size, &p);
-
- if(p.blendmode || p.filter) {
- tag = swf_InsertTag(tag, ST_PLACEOBJECT3);
- } else {
- tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
+ if (p.set & SF_CX_G)
+ {
+ history_remember(history, "cxform.g0", currentframe, changeFunction, p.cxform.g0, inter);
+ history_remember(history, "cxform.g1", currentframe, changeFunction, p.cxform.g1, inter);
}
- setPlacement(tag, 0, i->depth, m, 0, &p, 1);
-
- i->lastTag = tag;
- i->lastFrame = currentframe;
+ if (p.set & SF_CX_B)
+ {
+ history_remember(history, "cxform.b0", currentframe, changeFunction, p.cxform.b0, inter);
+ history_remember(history, "cxform.b1", currentframe, changeFunction, p.cxform.b1, inter);
+ }
+ if (p.set & SF_CX_A)
+ {
+ history_remember(history, "cxform.a0", currentframe, changeFunction, p.cxform.a0, inter);
+ history_remember(history, "cxform.a1", currentframe, changeFunction, p.cxform.a1, inter);
+ }
+ if (p.set & SF_ROTATE)
+ history_remember(history, "rotate", currentframe, changeFunction, p.rotate, inter);
+ if (p.set & SF_SHEAR)
+ history_remember(history, "shear", currentframe, changeFunction, p.shear, inter);
+ if (p.set & SF_PIVOT)
+ {
+ history_remember(history, "pivot.x", currentframe, changeFunction, p.pivot.x, inter);
+ history_remember(history, "pivot.y", currentframe, changeFunction, p.pivot.y, inter);
+ }
+ if (p.set & SF_PIN)
+ {
+ history_remember(history, "pin.x", currentframe, changeFunction, p.pin.x, inter);
+ history_remember(history, "pin.y", currentframe, changeFunction, p.pin.y, inter);
+ }
+ if (p.set & SF_BLEND)
+ history_remember(history, "blendmode", currentframe, changeFunction, p.blendmode, inter);
+ if (p.set & SF_FILTER)
+ history_rememberFilter(history, currentframe, changeFunction, p.filters, inter);
}
-RGBA interpolateColor(RGBA c1, RGBA c2, float ratio)
+void s_jump(char* instance, parameters_t p)
{
- RGBA c;
- c.r = c1.r * (1-ratio) + c2.r * ratio;
- c.g = c1.g * (1-ratio) + c2.g * ratio;
- c.b = c1.b * (1-ratio) + c2.b * ratio;
- c.a = c1.a * (1-ratio) + c2.a * ratio;
- return c;
+ instance_t* i = dictionary_lookup(&instances, instance);
+ if(!i)
+ syntaxerror("instance %s not known", instance);
+ recordChanges(i->history, p, CF_JUMP, 0);
}
-FILTER* interpolateFilter(FILTER*filter1,FILTER*filter2, float ratio)
+void s_change(char*instance, parameters_t p, interpolation_t* inter)
{
- if(!filter1 && !filter2)
- return 0;
- if(!filter1)
- return interpolateFilter(filter2,filter1,1-ratio);
-
- if(filter2 && filter2->type != filter1->type)
- syntaxerror("can't interpolate between %s and %s filters yet", filtername[filter1->type], filtername[filter2->type]);
-
- if(filter1->type == FILTERTYPE_BLUR) {
- FILTER_BLUR*f1 = (FILTER_BLUR*)filter1;
- FILTER_BLUR*f2 = (FILTER_BLUR*)filter2;
- if(f2 && f1->blurx == f2->blurx && f1->blury == f2->blury)
- return 0;
- FILTER_BLUR*f = (FILTER_BLUR*)swf_NewFilter(FILTERTYPE_BLUR);
- f->blurx= (f1->blurx)*(1-ratio) + (f2?f2->blurx:0)*ratio;
- f->blury= (f1->blury)*(1-ratio) + (f2?f2->blury:0)*ratio;
- f->passes= (f1->passes)*(1-ratio) + (f2?f2->passes:0)*ratio;
- return (FILTER*)f;
- } else if (filter1->type == FILTERTYPE_DROPSHADOW) {
- FILTER_DROPSHADOW*f1 = (FILTER_DROPSHADOW*)filter1;
- FILTER_DROPSHADOW*f2 = (FILTER_DROPSHADOW*)filter2;
- if(f2 && !memcmp(&f1->color,&f2->color,sizeof(RGBA)) && f1->strength == f2->strength &&
- f1->blurx == f2->blurx && f1->blury == f2->blury &&
- f1->angle == f2->angle && f1->distance == f2->distance)
- return 0;
- FILTER_DROPSHADOW*f = (FILTER_DROPSHADOW*)swf_NewFilter(FILTERTYPE_DROPSHADOW);
- memcpy(f, f1, sizeof(FILTER_DROPSHADOW));
- f->color = interpolateColor(f1->color, f2->color, ratio);
- f->blurx= (f1->blurx)*(1-ratio) + (f2?f2->blurx:0)*ratio;
- f->blury= (f1->blury)*(1-ratio) + (f2?f2->blury:0)*ratio;
- f->passes= (f1->passes)*(1-ratio) + (f2?f2->passes:0)*ratio;
- f->angle= (f1->angle)*(1-ratio) + (f2?f2->angle:0)*ratio;
- f->distance= (f1->distance)*(1-ratio) + (f2?f2->distance:0)*ratio;
- f->strength= (f1->strength)*(1-ratio) + (f2?f2->strength:0)*ratio;
- return (FILTER*)f;
- } else if (filter1->type == FILTERTYPE_BEVEL) {
- FILTER_BEVEL*f1 = (FILTER_BEVEL*)filter1;
- FILTER_BEVEL*f2 = (FILTER_BEVEL*)filter2;
- if(f2 && !memcmp(&f1->shadow,&f2->shadow,sizeof(RGBA)) &&
- !memcmp(&f1->highlight,&f2->highlight,sizeof(RGBA)) &&
- f1->blurx == f2->blurx && f1->blury == f2->blury && f1->angle == f2->angle && f1->strength == f2->strength && f1->distance == f2->distance)
- return 0;
- FILTER_BEVEL*f = (FILTER_BEVEL*)swf_NewFilter(FILTERTYPE_BEVEL);
- memcpy(f, f1, sizeof(FILTER_BEVEL));
- f->shadow = interpolateColor(f1->shadow, f2->shadow, ratio);
- f->highlight = interpolateColor(f1->highlight, f2->highlight, ratio);
- f->blurx= (f1->blurx)*(1-ratio) + (f2?f2->blurx:0)*ratio;
- f->blury= (f1->blury)*(1-ratio) + (f2?f2->blury:0)*ratio;
- f->passes= (f1->passes)*(1-ratio) + (f2?f2->passes:0)*ratio;
- f->angle= (f1->angle)*(1-ratio) + (f2?f2->angle:0)*ratio;
- f->distance= (f1->distance)*(1-ratio) + (f2?f2->distance:0)*ratio;
- f->strength= (f1->strength)*(1-ratio) + (f2?f2->strength:0)*ratio;
- return (FILTER*)f;
- } /*else if (filter1->type == FILTERTYPE_GRADIENTGLOW) {
- FILTER_GRADIENTGLOW*f = (FILTER_GRADIENTGLOW*)swf_NewFilter(FILTERTYPE_GRADIENTGLOW);
- // can't interpolate gradients
- memcpy(f, filter1, sizeof(FILTER_GRADIENTGLOW));
- return (FILTER*)f;
- }*/ else {
- syntaxerror("can't interpolate %s filters yet", filtername[filter1->type]);
- }
- return 0;
+ instance_t* i = dictionary_lookup(&instances, instance);
+ if(!i)
+ syntaxerror("instance %s not known", instance);
+ recordChanges(i->history, p, CF_CHANGE, inter);
}
-parameters_t s_interpolate(parameters_t*p1, parameters_t*p2, int pos, int num)
+void s_sweep(char* instance, parameters_t p, float radius, int clockwise, int short_arc, interpolation_t* inter)
{
- parameters_t p;
- float ratio;
- if(num==0 || num==1)
- return *p1;
- ratio = (float)pos/(float)num;
-
- p.x = (p2->x-p1->x)*ratio + p1->x;
- p.y = (p2->y-p1->y)*ratio + p1->y;
- p.scalex = (p2->scalex-p1->scalex)*ratio + p1->scalex;
- p.scaley = (p2->scaley-p1->scaley)*ratio + p1->scaley;
- p.rotate = (p2->rotate-p1->rotate)*ratio + p1->rotate;
- p.shear = (p2->shear-p1->shear)*ratio + p1->shear;
-
- p.cxform.r0 = ((float)p2->cxform.r0-(float)p1->cxform.r0)*ratio + p1->cxform.r0;
- p.cxform.g0 = ((float)p2->cxform.g0-(float)p1->cxform.g0)*ratio + p1->cxform.g0;
- p.cxform.b0 = ((float)p2->cxform.b0-(float)p1->cxform.b0)*ratio + p1->cxform.b0;
- p.cxform.a0 = ((float)p2->cxform.a0-(float)p1->cxform.a0)*ratio + p1->cxform.a0;
-
- p.cxform.r1 = (p2->cxform.r1-p1->cxform.r1)*ratio + p1->cxform.r1;
- p.cxform.g1 = (p2->cxform.g1-p1->cxform.g1)*ratio + p1->cxform.g1;
- p.cxform.b1 = (p2->cxform.b1-p1->cxform.b1)*ratio + p1->cxform.b1;
- p.cxform.a1 = (p2->cxform.a1-p1->cxform.a1)*ratio + p1->cxform.a1;
-
- p.pivot.x = (p2->pivot.x-p1->pivot.x)*ratio + p1->pivot.x;
- p.pivot.y = (p2->pivot.y-p1->pivot.y)*ratio + p1->pivot.y;
- p.pin.x = (p2->pin.x-p1->pin.x)*ratio + p1->pin.x;
- p.pin.y = (p2->pin.y-p1->pin.y)*ratio + p1->pin.y;
-
- p.filter = interpolateFilter(p1->filter, p2->filter, ratio);
- return p;
+ instance_t* i = dictionary_lookup(&instances, instance);
+ if(!i)
+ syntaxerror("instance %s not known", instance);
+ history_rememberSweep(i->history, currentframe, p.x, p.y, radius, clockwise, short_arc, inter);
}
-void s_change(char*instance, parameters_t p2)
+void s_toggle(char* instance, U16 flagsOn, U16 flagsOff)
{
instance_t* i = dictionary_lookup(&instances, instance);
- MATRIX m;
- parameters_t p1;
- TAG*t;
- int frame, allframes;
- if(!i) {
- syntaxerror("instance %s not known", instance);
- }
- p1 = i->parameters;
-
- allframes = currentframe - i->lastFrame - 1;
- if(allframes < 0) {
- warning(".change ignored. can only .put/.change an object once per frame.");
- return;
- }
-
- m = s_instancepos(i->character->size, &p2);
- if(p2.blendmode || p2.filter) {
- tag = swf_InsertTag(tag, ST_PLACEOBJECT3);
- } else {
- tag = swf_InsertTag(tag, ST_PLACEOBJECT2);
- }
- setPlacement(tag, 0, i->depth, m, 0, &p2, 1);
- i->parameters = p2;
-
- /* o.k., we got the start and end point set. Now iterate though all the
- tags in between, inserting object changes after each new frame */
- t = i->lastTag;
- i->lastTag = tag;
- if(!t) syntaxerror("internal error(6)");
- frame = 0;
- while(frame < allframes) {
- if(t->id == ST_SHOWFRAME) {
- parameters_t p;
- MATRIX m;
- TAG*lt;
- frame ++;
- p = s_interpolate(&p1, &p2, frame, allframes);
- m = s_instancepos(i->character->size, &p); //needed?
-
- i->lastFrame = currentframe;
- if(p.blendmode || p.filter) {
- lt = swf_InsertTag(t, ST_PLACEOBJECT3);
- } else {
- lt = swf_InsertTag(t, ST_PLACEOBJECT2);
- }
- setPlacement(lt, 0, i->depth, m, 0, &p, 1);
- t = lt;
- if(frame == allframes)
- break;
- }
- t = t->next;
- if(!t)
- syntaxerror("internal error(8) (frame=%d/%d)", frame, allframes);
- }
+ if (!i)
+ syntaxerror("instance %s not known", instance);
+ U16 flags = (U16)history_value(i->history, currentframe, "flags");
+ flags |= flagsOn;
+ flags &= flagsOff;
+ history_remember(i->history, "flags", currentframe, CF_JUMP, flags, 0);
}
void s_delinstance(char*instance)
{
instance_t* i = dictionary_lookup(&instances, instance);
- if(!i) {
- syntaxerror("instance %s not known", instance);
- }
+ if(!i)
+ syntaxerror("instance %s not known", instance);
+ writeInstance(i);
tag = swf_InsertTag(tag, ST_REMOVEOBJECT2);
swf_SetU16(tag, i->depth);
dictionary_del(&instances, instance);
}
-void s_qchange(char*instance, parameters_t p)
+void s_schange(char*instance, parameters_t p, interpolation_t* inter)
{
+ instance_t* i = dictionary_lookup(&instances, instance);
+ if(!i)
+ syntaxerror("instance %s not known", instance);
+ recordChanges(i->history, p, CF_SCHANGE, inter);
}
void s_end()
{
if(!stackpos)
syntaxerror(".end unexpected");
- if(stack[stackpos-1].type == 0)
- s_endSWF();
- else if(stack[stackpos-1].type == 1)
- s_endSprite();
- else if(stack[stackpos-1].type == 2)
- s_endClip();
- else if(stack[stackpos-1].type == 3)
- s_endButton();
- else syntaxerror("internal error 1");
+ switch (stack[stackpos-1].type)
+ {
+ case 0:
+ s_endSWF();
+ break;
+ case 1:
+ s_endSprite();
+ break;
+ case 2:
+ s_endClip();
+ break;
+ case 3:
+ s_endButton();
+ break;
+ default:
+ syntaxerror("internal error 1");
+ }
}
// ------------------------------------------------------------------------
char*s;
*dot++ = 0;
for(s=str;s<dot-1;s++)
- if(*s<'0' || *s>'9')
- syntaxerror("Not a coordinate: \"%s\"", str);
- for(s=dot;*s;s++) {
- if(*s<'0' || *s>'9')
- syntaxerror("Not a coordinate: \"%s\"", str);
- }
+ if(*s<'0' || *s>'9')
+ {
+ free(old);
+ syntaxerror("Not a coordinate: \"%s\"", str);
+ }
+ for(s=dot;*s;s++)
+ if(*s<'0' || *s>'9')
+ {
+ free(old);
+ syntaxerror("Not a coordinate: \"%s\"", str);
+ }
if(l>2 || (l==2 && (dot[1]!='0' && dot[1]!='5'))) {
dot[1] = ((dot[1]-0x30)/5)*5 + 0x30;
dot[2] = 0;
return 0;
}
+int parseArc(char* str)
+{
+ if (!strcmp(str, "short"))
+ return 1;
+ if (!strcmp(str, "long"))
+ return 0;
+ syntaxerror("invalid value for the arc parameter: %s", str);
+ return 1;
+}
+
+int parseDir(char* str)
+{
+ if (!strcmp(str, "clockwise"))
+ return 1;
+ if (!strcmp(str, "counterclockwise"))
+ return 0;
+ syntaxerror("invalid value for the dir parameter: %s", str);
+ return 1;
+}
+
int isPoint(char*str)
{
if(strchr(str, '('))
return value;
}
-static int c_flash(map_t*args)
+static int c_flash(map_t*args)
{
char* filename = map_lookup(args, "filename");
char* compressstr = lu(args, "compress");
+ char* change_modestr = lu(args, "change-sets-all");
SRECT bbox = parseBox(lu(args, "bbox"));
int version = parseInt(lu(args, "version"));
int fps = (int)(parseFloat(lu(args, "fps"))*256);
- int compress = 0;
RGBA color = parseColor(lu(args, "background"));
+ int compress = 0;
if(!filename || !*filename) {
/* for compatibility */
if(!filename || override_outputname)
filename = outputname;
-
+
if(!strcmp(compressstr, "default"))
compress = version>=6;
else if(!strcmp(compressstr, "yes") || !strcmp(compressstr, "compress"))
compress = 0;
else syntaxerror("value \"%s\" not supported for the compress argument", compressstr);
+ if(!strcmp(change_modestr, "yes"))
+ change_sets_all = 1;
+ else
+ if(strcmp(change_modestr, "no"))
+ syntaxerror("value \"%s\" not supported for the change-sets-all argument", change_modestr);
+
s_swf(filename, bbox, version, fps, compress, color);
return 0;
}
static mem_t mpoints;
int points_initialized = 0;
+static int c_interpolation(map_t *args)
+{
+ int i;
+ char* name = lu(args, "name");
+ if (dictionary_lookup(&interpolations, name))
+ syntaxerror("interpolation %s defined twice", name);
+
+ interpolation_t* inter = (interpolation_t*)malloc(sizeof(interpolation_t));
+ char* functionstr = lu(args, "function");
+ inter->function = 0;
+ for (i = 0; i < sizeof(interpolationFunctions) / sizeof(interpolationFunctions[0]); i++)
+ if (!strcmp(functionstr,interpolationFunctions[i]))
+ {
+ inter->function = i + 1;
+ break;
+ }
+ if (!inter->function)
+ syntaxerror("unkown interpolation function %s", functionstr);
+ inter->speed = parseFloat(lu(args, "speed"));
+ inter->amplitude = parseTwip(lu(args, "amplitude"));
+ inter->growth = parseFloat(lu(args, "growth"));
+ inter->bounces = parseInt(lu(args, "bounces"));
+ inter->damping = parseFloat(lu(args, "damping"));
+ inter->slope = parseFloat(lu(args, "slope"));
+
+ dictionary_put2(&interpolations, name, inter);
+ return 0;
+}
+
SPOINT getPoint(SRECT r, char*name)
{
int l=0;
if(!strcmp(name, "center")) {
- SPOINT p;
- p.x = (r.xmin + r.xmax)/2;
- p.y = (r.ymin + r.ymax)/2;
- return p;
+ SPOINT p;
+ p.x = (r.xmin + r.xmax)/2;
+ p.y = (r.ymin + r.ymax)/2;
+ return p;
+ }
+ if (!strcmp(name, "bottom-center")) {
+ SPOINT p;
+ p.x = (r.xmin + r.xmax)/2;
+ p.y = r.ymax;
+ return p;
+ }
+ if (!strcmp(name, "top-center")) {
+ SPOINT p;
+ p.x = (r.xmin + r.xmax)/2;
+ p.y = r.ymin;
+ return p;
+ }
+ if (!strcmp(name, "top-left")) {
+ SPOINT p;
+ p.x = r.xmin;
+ p.y = r.ymin;
+ return p;
+ }
+ if (!strcmp(name, "top-right")) {
+ SPOINT p;
+ p.x = r.xmax;
+ p.y = r.ymin;
+ return p;
+ }
+ if (!strcmp(name, "bottom-right")) {
+ SPOINT p;
+ p.x = r.xmax;
+ p.y = r.ymax;
+ return p;
+ }
+ if (!strcmp(name, "bottom-left")) {
+ SPOINT p;
+ p.x = r.xmin;
+ p.y = r.ymax;
+ return p;
+ }
+ if (!strcmp(name, "left-center")) {
+ SPOINT p;
+ p.x = r.xmin;
+ p.y = (r.ymin + r.ymax)/2;
+ return p;
+ }
+ if (!strcmp(name, "right-center")) {
+ SPOINT p;
+ p.x = r.xmax;
+ p.y = (r.ymin + r.ymax)/2;
+ return p;
}
+
if(points_initialized)
- l = (int)dictionary_lookup(&points, name);
+ l = (int)dictionary_lookup(&points, name);
if(l==0) {
- syntaxerror("Invalid point: \"%s\".", name);
+ syntaxerror("Invalid point: \"%s\".", name);
}
l--;
return *(SPOINT*)&mpoints.buffer[l];
}
-static int texture2(char*name, char*object, map_t*args, int errors)
+
+static int texture2(char*name, char*object, map_t*args, int errors)
{
SPOINT pos,size;
char*xstr = map_lookup(args, "x");
return 0;
}
-static int c_texture(map_t*args)
+static int c_texture(map_t*args)
{
char*name = lu(args, "instance");
char*object = lu(args, "character");
return texture2(name, object, args, 1);
}
-static int c_gradient(map_t*args)
+static int c_gradient(map_t*args)
{
char*name = lu(args, "name");
int radial= strcmp(lu(args, "radial"), "radial")?0:1;
readToken();
if(type != RAWDATA)
- syntaxerror("colon (:) expected");
+ syntaxerror("colon (:) expected");
+
+ if(dictionary_lookup(&gradients, name))
+ syntaxerror("gradient %s defined twice", name);
s_gradient(name, text, radial, rotate);
return 0;
}
-static int c_blur(map_t*args)
+static char* checkFiltername(map_t* args)
{
- char*name = lu(args, "name");
+ char* name = lu(args, "name");
+ if (strchr(name, ','))
+ syntaxerror("the comma (,) is used to separate filters in filterlists. Please do not use in filternames.");
+ return name;
+}
+
+static int c_blur(map_t*args)
+{
+ char*name = checkFiltername(args);
char*blurstr = lu(args, "blur");
char*blurxstr = lu(args, "blurx");
char*blurystr = lu(args, "blury");
if(blurstr[0]) {
blurx = parseFloat(blurstr);
blury = parseFloat(blurstr);
- }
+ }
if(blurxstr[0])
blurx = parseFloat(blurxstr);
if(blurystr[0])
return 0;
}
-static int c_gradientglow(map_t*args)
+static int c_gradientglow(map_t*args)
{
- char*name = lu(args, "name");
+ char*name = checkFiltername(args);
char*gradient = lu(args, "gradient");
char*blurstr = lu(args, "blur");
char*blurxstr = lu(args, "blurx");
if(blurstr[0]) {
blurx = parseFloat(blurstr);
blury = parseFloat(blurstr);
- }
+ }
if(blurxstr[0])
blurx = parseFloat(blurxstr);
if(blurystr[0])
return 0;
}
-static int c_dropshadow(map_t*args)
+static int c_dropshadow(map_t*args)
{
- char*name = lu(args, "name");
+ char*name = checkFiltername(args);
RGBA color = parseColor(lu(args, "color"));
char*blurstr = lu(args, "blur");
char*blurxstr = lu(args, "blurx");
if(blurstr[0]) {
blurx = parseFloat(blurstr);
blury = parseFloat(blurstr);
- }
+ }
if(blurxstr[0])
blurx = parseFloat(blurxstr);
if(blurystr[0])
return 0;
}
-static int c_bevel(map_t*args)
+static int c_bevel(map_t*args)
{
- char*name = lu(args, "name");
+ char*name = checkFiltername(args);
RGBA shadow = parseColor(lu(args, "shadow"));
RGBA highlight = parseColor(lu(args, "highlight"));
char*blurstr = lu(args, "blur");
if(blurstr[0]) {
blurx = parseFloat(blurstr);
blury = parseFloat(blurstr);
- }
+ }
if(blurxstr[0])
blurx = parseFloat(blurxstr);
if(blurystr[0])
return 0;
}
-static int c_point(map_t*args)
+static int c_point(map_t*args)
{
char*name = lu(args, "name");
int pos;
dictionary_put(&points, s1, (void*)pos);
return 0;
}
-static int c_play(map_t*args)
+static int c_play(map_t*args)
{
char*name = lu(args, "name");
char*loop = lu(args, "loop");
return 0;
}
-static int c_stop(map_t*args)
+static int c_stop(map_t*args)
{
char*name = map_lookup(args, "name");
- if(s_playsound(name, 0,0,1)) {
- return 0;
- } else if(s_swf3action(name, "stop")) {
- return 0;
- }
+ if(s_playsound(name, 0,0,1))
+ return 0;
+ else if(s_swf3action(name, "stop"))
+ return 0;
syntaxerror("I don't know anything about sound/movie \"%s\"", name);
- return 0;
+ return 0;
}
-static int c_nextframe(map_t*args)
+static int c_nextframe(map_t*args)
{
char*name = lu(args, "name");
return 0;
}
-static int c_previousframe(map_t*args)
+static int c_previousframe(map_t*args)
{
char*name = lu(args, "name");
return 0;
}
+static int c_movement(map_t*args, int type)
+{
+ char*instance = lu(args, "name");
+
+ char* xstr="";
+ char* ystr="";
+ SRECT oldbbox;
+ parameters_t p;
+ U16 set = 0x0000;
+
+ xstr = lu(args, "x");
+ ystr = lu(args, "y");
+
+ s_getParameters(instance, &p);
+
+ /* x,y position */
+ if(xstr[0])
+ {
+ if(isRelative(xstr))
+ {
+ if(type == PT_PUT || type == PT_STARTCLIP)
+ syntaxerror("relative x values not allowed for initial put or startclip");
+ p.x += parseTwip(getOffset(xstr))*getSign(xstr);
+ }
+ else
+ {
+ p.x = parseTwip(xstr);
+ }
+ set = set | SF_X;
+ }
+ if(ystr[0])
+ {
+ if(isRelative(ystr))
+ {
+ if(type == PT_PUT || type == PT_STARTCLIP)
+ syntaxerror("relative y values not allowed for initial put or startclip");
+ p.y += parseTwip(getOffset(ystr))*getSign(ystr);
+ }
+ else
+ {
+ p.y = parseTwip(ystr);
+ }
+ set = set | SF_Y;
+ }
+
+ if (change_sets_all)
+ set = SF_ALL;
+ p.set = set;
+
+ switch (type)
+ {
+ case PT_MOVE:
+ {
+ char* interstr = lu(args, "interpolation");
+ interpolation_t* inter = (interpolation_t*)dictionary_lookup(&interpolations, interstr);
+ if (!inter)
+ syntaxerror("unkown interpolation %s", interstr);
+ s_change(instance, p, inter);
+ }
+ break;
+ case PT_SMOVE:
+ {
+ char* interstr = lu(args, "interpolation");
+ interpolation_t* inter = (interpolation_t*)dictionary_lookup(&interpolations, interstr);
+ if (!inter)
+ syntaxerror("unkown interpolation %s", interstr);
+ s_schange(instance, p, inter);
+ }
+ break;
+ case PT_SWEEP:
+ {
+ char* rstr = lu(args, "r");
+ int radius = parseTwip(rstr);
+ if (radius <= 0)
+ syntaxerror("sweep not possible: radius must be greater than 0.");
+ char* dirstr = lu(args, "dir");
+ int clockwise = parseDir(dirstr);
+ char* arcstr = lu(args, "arc");
+ int short_arc = parseArc(arcstr);
+ char* interstr = lu(args, "interpolation");
+ interpolation_t* inter = (interpolation_t*)dictionary_lookup(&interpolations, interstr);
+ if (!inter)
+ syntaxerror("unkown interpolation %s", interstr);
+ s_sweep(instance, p, radius, clockwise, short_arc, inter);
+ }
+ break;
+ }
+ return 0;
+}
+
static int c_placement(map_t*args, int type)
{
- char*instance = lu(args, (type==0||type==4)?"instance":"name");
+ char*instance = lu(args, (type==PT_PUT||type==PT_STARTCLIP)?"instance":"name");
char*character = 0;
char* luminancestr = lu(args, "luminance");
char* pinstr = lu(args, "pin");
char* as = map_lookup(args, "as");
char* blendmode = lu(args, "blend");
- char*filterstr = lu(args, "filter");
+ char* filterstr = lu(args, "filter");
U8 blend;
MULADD r,g,b,a;
float oldwidth;
SRECT oldbbox;
MULADD luminance;
parameters_t p;
+ U16 set = 0x0000;
- if(type==9) { // (?) .rotate or .arcchange
- pivotstr = lu(args, "pivot");
- anglestr = lu(args, "angle");
- } else {
- xstr = lu(args, "x");
- ystr = lu(args, "y");
+ if(type==9)
+ { // (?) .rotate or .arcchange
+ pivotstr = lu(args, "pivot");
+ anglestr = lu(args, "angle");
+ }
+ else
+ {
+ xstr = lu(args, "x");
+ ystr = lu(args, "y");
}
+
if(luminancestr[0])
- luminance = parseMulAdd(luminancestr);
- else {
- luminance.add = 0;
- luminance.mul = 256;
+ luminance = parseMulAdd(luminancestr);
+ else
+ {
+ luminance.add = 0;
+ luminance.mul = 256;
}
- if(scalestr[0]) {
- if(scalexstr[0]||scaleystr[0])
- syntaxerror("scalex/scaley and scale cannot both be set");
- scalexstr = scaleystr = scalestr;
+ if(scalestr[0])
+ {
+ if(scalexstr[0]||scaleystr[0])
+ syntaxerror("scalex/scaley and scale cannot both be set");
+ scalexstr = scaleystr = scalestr;
}
-
- if(type == 0 || type == 4) {
+
+ if(type == PT_PUT || type == PT_STARTCLIP) {
// put or startclip
character = lu(args, "character");
parameters_clear(&p);
- } else if (type == 5) {
+ } else if (type == PT_BUTTON) {
character = lu(args, "name");
parameters_clear(&p);
// button's show
} else {
- p = s_getParameters(instance);
+ s_getParameters(instance, &p);
}
/* x,y position */
- if(xstr[0]) {
- if(isRelative(xstr)) {
- if(type == 0 || type == 4)
- syntaxerror("relative x values not allowed for initial put or startclip");
- p.x += parseTwip(getOffset(xstr))*getSign(xstr);
- } else {
- p.x = parseTwip(xstr);
- }
- }
- if(ystr[0]) {
- if(isRelative(ystr)) {
- if(type == 0 || type == 4)
- syntaxerror("relative y values not allowed for initial put or startclip");
- p.y += parseTwip(getOffset(ystr))*getSign(ystr);
- } else {
- p.y = parseTwip(ystr);
+ if(xstr[0])
+ {
+ if(isRelative(xstr))
+ {
+ if(type == PT_PUT || type == PT_STARTCLIP)
+ syntaxerror("relative x values not allowed for initial put or startclip");
+ p.x += parseTwip(getOffset(xstr))*getSign(xstr);
+ }
+ else
+ {
+ p.x = parseTwip(xstr);
+ }
+ set = set | SF_X;
+ }
+ if(ystr[0])
+ {
+ if(isRelative(ystr))
+ {
+ if(type == PT_PUT || type == PT_STARTCLIP)
+ syntaxerror("relative y values not allowed for initial put or startclip");
+ p.y += parseTwip(getOffset(ystr))*getSign(ystr);
+ }
+ else
+ {
+ p.y = parseTwip(ystr);
+ }
+ set = set | SF_Y;
}
- }
/* scale, scalex, scaley */
- if(character) {
- oldbbox = s_getCharBBox(character);
- } else {
- oldbbox = s_getInstanceBBox(instance);
- }
+ if(character)
+ oldbbox = s_getCharBBox(character);
+ else
+ oldbbox = s_getInstanceBBox(instance);
oldwidth = oldbbox.xmax - oldbbox.xmin;
oldheight = oldbbox.ymax - oldbbox.ymin;
- if(scalexstr[0]) {
- if(oldwidth==0) p.scalex = 1.0;
- else {
- if(scalexstr[0])
- p.scalex = (float)(parseNewSize(scalexstr, oldwidth))/oldwidth;
- }
- }
- if(scaleystr[0]) {
- if(oldheight==0) p.scaley = 1.0;
- else {
- if(scaleystr[0])
- p.scaley = (float)(parseNewSize(scaleystr, oldheight))/oldheight;
- }
- }
-
+ if(scalexstr[0])
+ {
+ if(oldwidth==0)
+ p.scalex = 1.0;
+ else
+ if(scalexstr[0])
+ p.scalex = (float)(parseNewSize(scalexstr, oldwidth))/oldwidth;
+ set = set | SF_SCALEX;
+ }
+ if(scaleystr[0])
+ {
+ if(oldheight==0)
+ p.scaley = 1.0;
+ else
+ if(scaleystr[0])
+ p.scaley = (float)(parseNewSize(scaleystr, oldheight))/oldheight;
+ set = set | SF_SCALEY;
+ }
+
/* rotation */
- if(rotatestr[0]) {
- if(isRelative(rotatestr)) {
- p.rotate += parseFloat(getOffset(rotatestr))*getSign(rotatestr);
- } else {
- p.rotate = parseFloat(rotatestr);
+ if(rotatestr[0])
+ {
+ if(isRelative(rotatestr))
+ p.rotate += parseFloat(getOffset(rotatestr))*getSign(rotatestr);
+ else
+ p.rotate = parseFloat(rotatestr);
+ set = set | SF_ROTATE;
}
- }
/* shearing */
- if(shearstr[0]) {
- if(isRelative(shearstr)) {
- p.shear += parseFloat(getOffset(shearstr))*getSign(shearstr);
- } else {
- p.shear = parseFloat(shearstr);
- }
+ if(shearstr[0])
+ {
+ if(isRelative(shearstr))
+ p.shear += parseFloat(getOffset(shearstr))*getSign(shearstr);
+ else
+ p.shear = parseFloat(shearstr);
+ set = set | SF_SHEAR;
}
- if(pivotstr[0]) {
- if(isPoint(pivotstr))
- p.pivot = parsePoint(pivotstr);
- else
- p.pivot = getPoint(oldbbox, pivotstr);
+ if(pivotstr[0])
+ {
+ if(isPoint(pivotstr))
+ p.pivot = parsePoint(pivotstr);
+ else
+ p.pivot = getPoint(oldbbox, pivotstr);
+ set = set | SF_PIVOT;
}
- if(pinstr[0]) {
- if(isPoint(pinstr))
- p.pin = parsePoint(pinstr);
- else
- p.pin = getPoint(oldbbox, pinstr);
+
+ if(pinstr[0])
+ {
+ if(isPoint(pinstr))
+ p.pin = parsePoint(pinstr);
+ else
+ p.pin = getPoint(oldbbox, pinstr);
+ set = set | SF_PIN;
}
-
+
/* color transform */
- if(rstr[0] || luminancestr[0]) {
- MULADD r;
- if(rstr[0])
- r = parseMulAdd(rstr);
- else {
- r.add = p.cxform.r0;
- r.mul = p.cxform.r1;
- }
- r = mergeMulAdd(r, luminance);
- p.cxform.r0 = r.mul;p.cxform.r1 = r.add;
- }
- if(gstr[0] || luminancestr[0]) {
- MULADD g;
- if(gstr[0])
- g = parseMulAdd(gstr);
- else {
- g.add = p.cxform.g0;
- g.mul = p.cxform.g1;
- }
- g = mergeMulAdd(g, luminance);
- p.cxform.g0 = g.mul;p.cxform.g1 = g.add;
- }
- if(bstr[0] || luminancestr[0]) {
- MULADD b;
- if(bstr[0])
- b = parseMulAdd(bstr);
- else {
- b.add = p.cxform.b0;
- b.mul = p.cxform.b1;
+ if(rstr[0] || luminancestr[0])
+ {
+ MULADD r;
+ if(rstr[0])
+ r = parseMulAdd(rstr);
+ else
+ {
+ r.add = p.cxform.r0;
+ r.mul = p.cxform.r1;
+ }
+ r = mergeMulAdd(r, luminance);
+ p.cxform.r0 = r.mul;
+ p.cxform.r1 = r.add;
+ set = set | SF_CX_R;
}
- b = mergeMulAdd(b, luminance);
- p.cxform.b0 = b.mul;p.cxform.b1 = b.add;
- }
- if(astr[0]) {
- MULADD a = parseMulAdd(astr);
- p.cxform.a0 = a.mul;p.cxform.a1 = a.add;
+ if(gstr[0] || luminancestr[0])
+ {
+ MULADD g;
+ if(gstr[0])
+ g = parseMulAdd(gstr);
+ else
+ {
+ g.add = p.cxform.g0;
+ g.mul = p.cxform.g1;
+ }
+ g = mergeMulAdd(g, luminance);
+ p.cxform.g0 = g.mul;
+ p.cxform.g1 = g.add;
+ set = set | SF_CX_G;
+ }
+ if(bstr[0] || luminancestr[0])
+ {
+ MULADD b;
+ if(bstr[0])
+ b = parseMulAdd(bstr);
+ else
+ {
+ b.add = p.cxform.b0;
+ b.mul = p.cxform.b1;
+ }
+ b = mergeMulAdd(b, luminance);
+ p.cxform.b0 = b.mul;
+ p.cxform.b1 = b.add;
+ set = set | SF_CX_B;
+ }
+ if(astr[0])
+ {
+ MULADD a = parseMulAdd(astr);
+ p.cxform.a0 = a.mul;
+ p.cxform.a1 = a.add;
+ set = set | SF_CX_A;
}
- if(blendmode[0]) {
- int t;
- blend = 255;
- for(t=0;blendModeNames[t];t++) {
- if(!strcmp(blendModeNames[t], blendmode)) {
- blend = t;
- break;
- }
- }
- if(blend == 255) {
- syntaxerror("unknown blend mode: '%s'", blendmode);
- }
- p.blendmode = blend;
- }
-
- if(filterstr[0]) {
- FILTER*f = dictionary_lookup(&filters, filterstr);
- if(!f)
- syntaxerror("Unknown filter %s", filterstr);
- p.filter = f;
- }
-
-
- if(type == 0)
- s_put(instance, character, p);
- else if(type == 1)
- s_change(instance, p);
- else if(type == 2)
- s_qchange(instance, p);
- else if(type == 3)
- s_jump(instance, p);
- else if(type == 4)
- s_startclip(instance, character, p);
- else if(type == 5) {
- if(as && as[0]) {
- s_buttonput(character, as, p);
- } else {
- s_buttonput(character, "shape", p);
+ if(blendmode[0])
+ {
+ int t;
+ blend = 255;
+ for(t = 0; blendModeNames[t]; t++)
+ {
+ if(!strcmp(blendModeNames[t], blendmode))
+ {
+ blend = t;
+ break;
+ }
+ }
+ if(blend == 255)
+ {
+ syntaxerror("unknown blend mode: '%s'", blendmode);
+ }
+ p.blendmode = blend;
+ set = set | SF_BLEND;
}
+
+ if(filterstr[0])
+ {
+ p.filters = parseFilters(filterstr);
+ set = set | SF_FILTER;
}
+
+ if (type == PT_CHANGE && set & (SF_X | SF_Y))
+ warning("As of version 0.8.2 using the .change command to modify an \
+object's position on the stage is considered deprecated. Future \
+versions may consider x and y parameters for the .change command \
+to be illegal; please use the .move command.");
+
+ if (change_sets_all)
+ set = SF_ALL;
+ p.set = set;
+
+ switch (type)
+ {
+ case PT_PUT:
+ s_put(instance, character, p);
+ break;
+ case PT_CHANGE:
+ {
+ char* interstr = lu(args, "interpolation");
+ interpolation_t* inter = (interpolation_t*)dictionary_lookup(&interpolations, interstr);
+ if (!inter)
+ syntaxerror("unkown interpolation %s", interstr);
+ s_change(instance, p, inter);
+ }
+ break;
+ case PT_SCHANGE:
+ {
+ char* interstr = lu(args, "interpolation");
+ interpolation_t* inter = (interpolation_t*)dictionary_lookup(&interpolations, interstr);
+ if (!inter)
+ syntaxerror("unkown interpolation %s", interstr);
+ s_schange(instance, p, inter);
+ }
+ break;
+ case PT_JUMP:
+ s_jump(instance, p);
+ break;
+ case PT_STARTCLIP:
+ s_startclip(instance, character, p);
+ break;
+ case PT_BUTTON:
+ if(as && as[0])
+ s_buttonput(character, as, p);
+ else
+ s_buttonput(character, "shape", p);
+ break;
+// default:
+ }
return 0;
}
-static int c_put(map_t*args)
+static int c_put(map_t*args)
{
- c_placement(args, 0);
+ c_placement(args, PT_PUT);
+ return 0;
+}
+static int c_change(map_t*args)
+{
+ if (currentframe == 0)
+ warning("change commands in frame 1 will be ignored, please use the put command to set object parameters");
+ c_placement(args, PT_CHANGE);
+ return 0;
+}
+static int c_schange(map_t*args)
+{
+ c_placement(args, PT_SCHANGE);
return 0;
}
-static int c_change(map_t*args)
+static int c_move(map_t* args)
{
- c_placement(args, 1);
+ c_movement(args, PT_MOVE);
return 0;
}
-static int c_qchange(map_t*args)
+static int c_smove(map_t* args)
{
- c_placement(args, 2);
+ c_movement(args, PT_SMOVE);
return 0;
}
-static int c_arcchange(map_t*args)
+static int c_sweep(map_t* args)
{
- c_placement(args, 2);
+ c_movement(args, PT_SWEEP);
+ return 0;
+}
+static int c_arcchange(map_t*args)
+{
+ c_placement(args, 0);
return 0;
}
-static int c_jump(map_t*args)
+static int c_jump(map_t*args)
{
- c_placement(args, 3);
+ c_placement(args, PT_JUMP);
return 0;
}
-static int c_startclip(map_t*args)
+static int c_startclip(map_t*args)
{
- c_placement(args, 4);
+ c_placement(args, PT_STARTCLIP);
return 0;
}
-static int c_show(map_t*args)
+static int c_show(map_t*args)
{
- c_placement(args, 5);
+ c_placement(args, PT_BUTTON);
return 0;
}
-static int c_del(map_t*args)
+static int c_toggle(map_t* args)
+{
+ char*instance = lu(args, "name");
+ U16 flagsOn = 0x0000, flagsOff = 0xffff;
+ char* alignstr = lu(args, "fixed_alignment");
+ if (!strcmp(alignstr, "on"))
+ flagsOn += IF_FIXED_ALIGNMENT;
+ else
+ if (!strcmp(alignstr, "off"))
+ flagsOff -= IF_FIXED_ALIGNMENT;
+ else
+ syntaxerror("values for toggle must be \"on\" or \"off\". %s is not legal.", alignstr);
+ s_toggle(instance, flagsOn, flagsOff);
+ return 0;
+}
+static int c_del(map_t*args)
{
char*instance = lu(args, "name");
s_delinstance(instance);
return 0;
}
-static int c_end(map_t*args)
+static int c_end(map_t*args)
{
s_end();
return 0;
}
-static int c_sprite(map_t*args)
+static int c_sprite(map_t*args)
{
char* name = lu(args, "name");
s_sprite(name);
return 0;
}
-static int c_frame(map_t*args)
+static int c_frame(map_t*args)
{
char*framestr = lu(args, "n");
char*cutstr = lu(args, "cut");
-
+
char*name = lu(args, "name");
char*anchor = lu(args, "anchor");
char buf[40];
s_frame(frame, cut, name, !strcmp(anchor, "anchor"));
return 0;
}
-static int c_primitive(map_t*args)
+static int c_primitive(map_t*args)
{
char*name = lu(args, "name");
char*command = lu(args, "commandname");
type = 1;
else if(!strcmp(command, "filled"))
type = 2;
-
+
if(type==0) {
width = parseTwip(lu(args, "width"));
height = parseTwip(lu(args, "height"));
fillstr = 0;
if(width<0 || height<0 || linewidth<0 || r<0)
syntaxerror("values width, height, line, r must be positive");
-
+
if(type == 0) s_box(name, width, height, color, linewidth, fillstr);
else if(type==1) s_circle(name, r, color, linewidth, fillstr);
else if(type==2) s_filled(name, outline, color, linewidth, fillstr);
return 0;
}
-static int c_textshape(map_t*args)
+static int c_textshape(map_t*args)
{
char*name = lu(args, "name");
char*text = lu(args, "text");
return 0;
}
-static int c_swf(map_t*args)
+static int c_swf(map_t*args)
{
char*name = lu(args, "name");
char*filename = lu(args, "filename");
return 0;
}
-static int c_font(map_t*args)
+static int c_font(map_t*args)
{
char*name = lu(args, "name");
char*filename = lu(args, "filename");
return 0;
}
-static int c_sound(map_t*args)
+static int c_sound(map_t*args)
{
char*name = lu(args, "name");
char*filename = lu(args, "filename");
return 0;
}
-static int c_text(map_t*args)
+static int c_text(map_t*args)
{
char*name = lu(args, "name");
char*text = lu(args, "text");
return 0;
}
-static int c_soundtrack(map_t*args)
+static int c_soundtrack(map_t*args)
{
return 0;
}
-static int c_quicktime(map_t*args)
+static int c_quicktime(map_t*args)
{
char*name = lu(args, "name");
char*url = lu(args, "url");
return 0;
}
-static int c_image(map_t*args)
+static int c_image(map_t*args)
{
char*command = lu(args, "commandname");
char*name = lu(args, "name");
return 0;
}
-static int c_outline(map_t*args)
+static int c_outline(map_t*args)
{
char*name = lu(args, "name");
char*format = lu(args, "format");
return 1;
}
} else {
- /* TODO:
+ /* TODO:
<ctrl-x> = 0x200*(x-'a')
esc = = 0x3600
space = = 0x4000;
return 0;
}
-static int c_edittext(map_t*args)
+static int c_edittext(map_t*args)
{
//"name font size width height text="" color=black maxlength=0 variable="" @password=0 @wordwrap=0 @multiline=0 @html=0 @noselect=0 @readonly=0 @autosize=0"},
char*name = lu(args, "name");
FILE*fi = fopen(filename, "rb");
int l;
char*text;
- if(!fi)
+ if(!fi)
syntaxerror("Couldn't find file %s: %s", filename, strerror(errno));
fseek(fi, 0, SEEK_END);
l = ftell(fi);
return text;
}
-static int c_action(map_t*args)
+static int c_action(map_t*args)
{
char* filename = map_lookup(args, "filename");
if(!filename ||!*filename) {
} else {
s_action(readfile(filename));
}
-
+
return 0;
}
-static int c_initaction(map_t*args)
+static int c_initaction(map_t*args)
{
char* character = lu(args, "name");
char* filename = map_lookup(args, "filename");
} else {
s_initaction(character, readfile(filename));
}
-
+
return 0;
}
command_func_t* func;
char*arguments;
} arguments[] =
-{{"flash", c_flash, "bbox=autocrop background=black version=6 fps=50 name= filename= @compress=default"},
+{{"flash", c_flash, "bbox=autocrop background=black version=6 fps=50 name= filename= @compress=default @change-sets-all=no"},
{"frame", c_frame, "n=<plus>1 name= @cut=no @anchor=no"},
// "import" type stuff
{"swf", c_swf, "name filename"},
{"png", c_image, "name filename"},
{"movie", c_movie, "name filename"},
{"sound", c_sound, "name filename"},
- {"font", c_font, "name filename"},
+ {"font", c_font, "name filename glyphs="},
{"soundtrack", c_soundtrack, "filename"},
{"quicktime", c_quicktime, "url"},
{"point", c_point, "name x=0 y=0"},
{"gradient", c_gradient, "name @radial=0 rotate=0 scale= scalex= scaley= x= y= width= height= r= shear="}, //extra parameters like .texture
+ {"interpolation", c_interpolation, "name function=linear speed=1.3 amplitude=0 bounces=2 growth=1.5 damping=2 slope=0"},
{"outline", c_outline, "name format=simple"},
{"textshape", c_textshape, "name font size=100% text"},
{"on_move_in", c_on_move_in, "state=not_pressed"},
{"on_move_out", c_on_move_out, "state=not_pressed"},
{"on_key", c_on_key, "key=any"},
-
+
// control tags
{"play", c_play, "name loop=0 @nomultiple=0"},
{"stop", c_stop, "name= "},
// object placement tags
{"put", c_put, "<i> x=0 y=0 red=+0 green=+0 blue=+0 alpha=+0 luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
{"startclip", c_startclip, "<i> x=0 y=0 red=+0 green=+0 blue=+0 alpha=+0 luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
- {"change", c_change, "name x= y= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
- {"arcchange", c_arcchange, "name pivot= angle= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
- {"qchange", c_qchange, "name x= y= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
+ {"move", c_move, "name x= y= interpolation=linear"},
+ {"smove", c_smove, "name x= y= interpolation=linear"},
+ {"sweep", c_sweep, "name x= y= r= dir=counterclockwise arc=short interpolation=linear"},
+ {"change", c_change, "name x= y= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below= interpolation=linear"},
+ //{"arcchange", c_arcchange, "name pivot= angle= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
+ {"schange", c_schange, "name red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below= interpolation=linear"},
{"jump", c_jump, "name x= y= red= green= blue= alpha= luminance= scale= scalex= scaley= blend= filter= pivot= pin= shear= rotate= ratio= above= below="},
{"del", c_del, "name"},
// virtual object placement
{"texture", c_texture, "<i> x=0 y=0 width= height= scale= scalex= scaley= r= shear= rotate="},
+ // switching
+ {"toggle", c_toggle, "name fixed_alignment="},
// commands which start a block
//startclip (see above)
{
char*x;
char*d,*e;
-
+
string_t name[64];
string_t value[64];
int set[64];
d=&x[strlen(x)];
set[pos] = 0;
- if(!e || d<e) {
+ if(!e || d<e) {
// no default
name[pos].str = x;
name[pos].len = d-x;
/* ok, now construct the dictionary from the parameters */
- for(t=0;t<len;t++)
+ for(t=0;t<len;t++)
{
map_put(&result, name[t], value[t]);
}
/* ugly hack- will be removed soon (once documentation and .sc generating
utilities have been changed) */
if(!strcmp(command, "swf") && !stackpos) {
- warning("Please use .flash instead of .swf- this will be mandatory soon");
+ warning("Please use .flash instead of .swf- this will be mandatory soon");
command = "flash";
t = 0;
}
}
if(nr<0)
syntaxerror("command %s not known", command);
-
+
// catch missing .flash directives at the beginning of a file
if(strcmp(command, "flash") && !stackpos)
{
return;
}
+
+/* for now only intended to find what glyphs of each font are to be included in the swf file.
+ * Therefore some knowledge about the command is assumed i.e. it is font/text-related
+ * No syntax checking is done */
+static void analyseArgumentsForCommand(char*command)
+{
+ int t;
+ map_t args;
+ char* fontfile;
+ int nr = -1;
+ msg("<verbose> analyse Command: %s (line %d)", command, line);
+
+ for(t=0;t<sizeof(arguments)/sizeof(arguments[0]);t++)
+ {
+ if(!strcmp(arguments[t].command, command))
+ {
+ args = parseArguments(command, arguments[t].arguments);
+ nr = t;
+ break;
+ }
+ }
+#ifdef DEBUG
+ printf(".%s\n", command);fflush(stdout);
+ map_dump(&args, stdout, "\t");fflush(stdout);
+#endif
+ char* name = lu(&args, "name");
+ if (!strcmp(command, "font"))
+ {
+ if(dictionary_lookup(&fonts, name))
+ syntaxerror("font %s defined twice", name);
+
+ SWFFONT* font;
+ fontfile = lu(&args, "filename");
+ font = swf_LoadFont(fontfile);
+ if(font == 0) {
+ warning("Couldn't open font file \"%s\"", fontfile);
+ font = (SWFFONT*)malloc(sizeof(SWFFONT));
+ memset(font, 0, sizeof(SWFFONT));
+ }
+ swf_FontUseUTF8(font, lu(&args, "glyphs"));
+ swf_FontPrepareForEditText(font);
+ dictionary_put2(&fonts, name, font);
+ }
+ else
+ {
+ SWFFONT* font = dictionary_lookup(&fonts, lu(&args, "font"));
+ if (!font)
+ syntaxerror("font %s is not known in line %d", lu(&args, "font"), line);
+ else
+ if (!strcmp(command, "edittext"))
+ swf_FontUseAll(font);
+ else
+ swf_FontUseUTF8(font, lu(&args, "text"));
+ }
+ map_clear(&args);
+ return;
+}
+
+void skipParameters()
+{
+ do
+ readToken();
+ while (type != COMMAND);
+ pushBack();
+}
+
+void findFontUsage()
+{
+ char* fontRelated = "font;text;textshape;edittext;";
+ while(!noMoreTokens())
+ {
+ readToken();
+ if(type != COMMAND)
+ syntaxerror("command expected");
+ if (strstr(fontRelated, text))
+ analyseArgumentsForCommand(text);
+ else
+ if(strcmp(text, "end"))
+ skipParameters();
+ }
+}
+
+void firstPass()
+{
+ pos = 0;
+ id = 0;
+ dictionary_init(&fonts);
+ cleanUp = &freeFontDictionary;
+ findFontUsage();
+}
+
int main (int argc,char ** argv)
-{
+{
int t;
processargs(argc, argv);
initLog(0,-1,0,0,-1,verbose);
args_callback_usage(argv[0]);
exit(1);
}
-
+
file = generateTokens(filename);
if(!file) {
fprintf(stderr, "parser returned error.\n");
return 1;
}
+ firstPass();
pos=0;
t=0;