Daodan/src/Daodan_BSL.c

#include <stdio.h>
#include <time.h>
#include <ffi.h>

#include "Daodan_BSL.h"
#include "Daodan_Utility.h"
#include "Daodan_Console.h"
#include "BFW_ScriptLang.h"
#include "Oni.h"
#include "Oni_Character.h"
#include "dSFMT\dSFMT.h"

uint16_t ONICALL bsl_int32mul(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        ret->value_int32 = args[0].value_int32 * args[1].value_int32;
        ret->type = sl_int32;
        return 0;
}

uint16_t ONICALL bsl_mul(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        double val1;
        double val2;
        
        if (args[0].type == sl_int32)
                val1 = args[0].value_int32;
        else
                val1 = args[0].value_float;
        
        if (args[1].type == sl_int32)
                val2 = args[1].value_int32;
        else
                val2 = args[1].value_float;
        
        ret->value_float = (float)(val1 * val2);
        ret->type = sl_float;
        return 0;
}

uint16_t ONICALL bsl_int32div(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        ret->value_int32 = args[0].value_int32 / args[1].value_int32;
        ret->type = sl_int32;
        return 0;
}

uint16_t ONICALL bsl_div(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        double val1;
        double val2;
        
        if (args[0].type == sl_int32)
                val1 = args[0].value_int32;
        else
                val1 = args[0].value_float;
        
        if (args[1].type == sl_int32)
                val2 = args[1].value_int32;
        else
                val2 = args[1].value_float;
        
        ret->value_float = (float)(val1 / val2);
        ret->type = sl_float;
        return 0;
}

uint16_t ONICALL bsl_int32rand(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        int32_t start = 0;
        int32_t end = 0;
        
        if (args[0].value_int32 == args[1].value_int32)
                return 1;
        else if (args[0].value_int32 > args[1].value_int32)
        {
                start = args[1].value_int32;
                end = args[0].value_int32;
        }
        else
        {
                start = args[0].value_int32;
                end = args[1].value_int32;
        }
        
        ret->value_int32 = start + (dsfmt_gv_genrand_uint32() % (uint32_t)(end - start + 1));
        ret->type = sl_int32;
        return 0;
}

uint16_t ONICALL bsl_getkills(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        int index;
        if (numargs == 0) index = 0;
        else index = args[0].value_int32;
        int* killcount = ONgGameState + index * 0x16A0 + 0x1260 + 0x1670;
        ret->value_int32 = *killcount;
        ret->type = sl_int32;
        return 0;
}

uint16_t ONICALL bsl_getdamage(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        int index;
        if (numargs == 0) index = 0;
        else index = args[0].value_int32;
        int* killcount = ONgGameState + index * 0x16A0 + 0x1260 + 0x1674;
        ret->value_int32 = *killcount;
        ret->type = sl_int32;
        return 0;
}
/*
uint16_t ONICALL bsl_sprintf(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        if (numargs < 2)
                return 1;
        
        char output[255];
        int i;
        for(i = 1; i < numargs; i++)    {
                sprintf(output, args[0].value_str32, args[i].value_str32);
        }
        
        ret->value_str32 = output;
        ret->type = sl_str32;
        return 0;
}
*/
uint16_t ONICALL bsl_sprintf(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
{
        DDrConsole_PrintF("%d", numargs);
        
        if (numargs < 1 || args[0].type != sl_str32)
        {
                DDrConsole_PrintF("Func \"%s\", File \"%s\", Line %d: semantic error, \"%s\": parameter list does not match: format:string arg1 arg2 ...", callinfo->name, callinfo->calllocation, callinfo->linenumber, callinfo->name);
                return 0;
        }
        
        if (!args[0].value_str32)
                args[0].value_str32 = "";
        
        int ffi_ret;
        char* str = NULL;
        int size = 0;
        
        ffi_cif cif;
        ffi_type* ffi_args[256];
        void* values[256];
        
        ffi_args[0] = &ffi_type_pointer;
        values[0] = &str;
        ffi_args[1] = &ffi_type_uint32;
        values[1] = &size;
        
        int i;
        for(i = 2; i < numargs + 2; i ++)
        {
                if (args[i - 2].type == sl_float)
                {
                        float value_float = args[i - 2].value_float;
                        double* value_double = (double*)&(args[i - 2]);
                        *value_double = value_float;
                        
                        ffi_args[i] = &ffi_type_double;
                        values[i] = value_double;
                }
                else
                {
                        ffi_args[i] = &ffi_type_pointer;
                        values[i] = &(args[i - 2].value);
                }
        }
        
        if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, i, &ffi_type_sint32, ffi_args) != FFI_OK)
                return 1;
        ffi_call(&cif, (void*)snprintf, (void*)&ffi_ret, values);
        str = malloc(ffi_ret + 1);
        size = ffi_ret + 1;
        ffi_call(&cif, (void*)snprintf, (void*)&ffi_ret, values);
        ret->value_str32 = str;
        ret->type = sl_str32;
        return 0;
}

void SLrDaodan_Initalize()
{
        SLrScript_Command_Register_ReturnType("int32mul", "Multiplies two numbers", "n1:int n2:int", sl_int32, bsl_int32mul);
        SLrScript_Command_Register_ReturnType("mul", "Multiplies two numbers", "[int1:int|float1:float] [int2:int|float2:float]", sl_float, bsl_mul);
        
        SLrScript_Command_Register_ReturnType("int32div", "Divides two numbers", "n1:int n2:int", sl_int32, bsl_int32div);
        SLrScript_Command_Register_ReturnType("div", "Divides two numbers", "[int1:int|float1:float] [int2:int|float2:float]", sl_float, bsl_div);
        
        dsfmt_gv_init_gen_rand((uint32_t)time(NULL));
        SLrScript_Command_Register_ReturnType("int32rand", "Returns a pseudo-random number between two numbers (inclusive).", "start:int end:int", sl_int32, bsl_int32rand);
        
        SLrScript_Command_Register_ReturnType("chr_getkills","Gets the number of kills a character has", "[chrindex:int]", sl_int32, bsl_getkills);
        SLrScript_Command_Register_ReturnType("chr_getdamage","Gets the amount of damage a character has caused", "[chrindex:int]", sl_int32, bsl_getdamage);
        
        SLrScript_Command_Register_ReturnType("sprintf", "C-style sprintf.", "format:string arg1 arg2 ...", sl_str32, bsl_sprintf);
}
Revision:	445
Committed:	Sun Jul 19 11:03:44 2009 UTC (16 years, 4 months ago) by rossy
Content type:	text/x-csrc
File size:	5996 byte(s)
Log Message:	fixed sprintf
#	Content
1	#include <stdio.h>
2	#include <time.h>
3	#include <ffi.h>
4
5	#include "Daodan_BSL.h"
6	#include "Daodan_Utility.h"
7	#include "Daodan_Console.h"
8	#include "BFW_ScriptLang.h"
9	#include "Oni.h"
10	#include "Oni_Character.h"
11	#include "dSFMT\dSFMT.h"
12
13	uint16_t ONICALL bsl_int32mul(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
14	{
15	ret->value_int32 = args[0].value_int32 * args[1].value_int32;
16	ret->type = sl_int32;
17	return 0;
18	}
19
20	uint16_t ONICALL bsl_mul(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
21	{
22	double val1;
23	double val2;
24
25	if (args[0].type == sl_int32)
26	val1 = args[0].value_int32;
27	else
28	val1 = args[0].value_float;
29
30	if (args[1].type == sl_int32)
31	val2 = args[1].value_int32;
32	else
33	val2 = args[1].value_float;
34
35	ret->value_float = (float)(val1 * val2);
36	ret->type = sl_float;
37	return 0;
38	}
39
40	uint16_t ONICALL bsl_int32div(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
41	{
42	ret->value_int32 = args[0].value_int32 / args[1].value_int32;
43	ret->type = sl_int32;
44	return 0;
45	}
46
47	uint16_t ONICALL bsl_div(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
48	{
49	double val1;
50	double val2;
51
52	if (args[0].type == sl_int32)
53	val1 = args[0].value_int32;
54	else
55	val1 = args[0].value_float;
56
57	if (args[1].type == sl_int32)
58	val2 = args[1].value_int32;
59	else
60	val2 = args[1].value_float;
61
62	ret->value_float = (float)(val1 / val2);
63	ret->type = sl_float;
64	return 0;
65	}
66
67	uint16_t ONICALL bsl_int32rand(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
68	{
69	int32_t start = 0;
70	int32_t end = 0;
71
72	if (args[0].value_int32 == args[1].value_int32)
73	return 1;
74	else if (args[0].value_int32 > args[1].value_int32)
75	{
76	start = args[1].value_int32;
77	end = args[0].value_int32;
78	}
79	else
80	{
81	start = args[0].value_int32;
82	end = args[1].value_int32;
83	}
84
85	ret->value_int32 = start + (dsfmt_gv_genrand_uint32() % (uint32_t)(end - start + 1));
86	ret->type = sl_int32;
87	return 0;
88	}
89
90	uint16_t ONICALL bsl_getkills(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
91	{
92	int index;
93	if (numargs == 0) index = 0;
94	else index = args[0].value_int32;
95	int* killcount = ONgGameState + index * 0x16A0 + 0x1260 + 0x1670;
96	ret->value_int32 = *killcount;
97	ret->type = sl_int32;
98	return 0;
99	}
100
101	uint16_t ONICALL bsl_getdamage(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
102	{
103	int index;
104	if (numargs == 0) index = 0;
105	else index = args[0].value_int32;
106	int* killcount = ONgGameState + index * 0x16A0 + 0x1260 + 0x1674;
107	ret->value_int32 = *killcount;
108	ret->type = sl_int32;
109	return 0;
110	}
111	/*
112	uint16_t ONICALL bsl_sprintf(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
113	{
114	if (numargs < 2)
115	return 1;
116
117	char output[255];
118	int i;
119	for(i = 1; i < numargs; i++) {
120	sprintf(output, args[0].value_str32, args[i].value_str32);
121	}
122
123	ret->value_str32 = output;
124	ret->type = sl_str32;
125	return 0;
126	}
127	*/
128	uint16_t ONICALL bsl_sprintf(sl_callinfo* callinfo, uint32_t numargs, sl_arg args[], void* dontuse1, void* dontuse2, sl_arg* ret)
129	{
130	DDrConsole_PrintF("%d", numargs);
131
132	if (numargs < 1 \|\| args[0].type != sl_str32)
133	{
134	DDrConsole_PrintF("Func \"%s\", File \"%s\", Line %d: semantic error, \"%s\": parameter list does not match: format:string arg1 arg2 ...", callinfo->name, callinfo->calllocation, callinfo->linenumber, callinfo->name);
135	return 0;
136	}
137
138	if (!args[0].value_str32)
139	args[0].value_str32 = "";
140
141	int ffi_ret;
142	char* str = NULL;
143	int size = 0;
144
145	ffi_cif cif;
146	ffi_type* ffi_args[256];
147	void* values[256];
148
149	ffi_args[0] = &ffi_type_pointer;
150	values[0] = &str;
151	ffi_args[1] = &ffi_type_uint32;
152	values[1] = &size;
153
154	int i;
155	for(i = 2; i < numargs + 2; i ++)
156	{
157	if (args[i - 2].type == sl_float)
158	{
159	float value_float = args[i - 2].value_float;
160	double* value_double = (double*)&(args[i - 2]);
161	*value_double = value_float;
162
163	ffi_args[i] = &ffi_type_double;
164	values[i] = value_double;
165	}
166	else
167	{
168	ffi_args[i] = &ffi_type_pointer;
169	values[i] = &(args[i - 2].value);
170	}
171	}
172
173	if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, i, &ffi_type_sint32, ffi_args) != FFI_OK)
174	return 1;
175	ffi_call(&cif, (void)snprintf, (void)&ffi_ret, values);
176	str = malloc(ffi_ret + 1);
177	size = ffi_ret + 1;
178	ffi_call(&cif, (void)snprintf, (void)&ffi_ret, values);
179	ret->value_str32 = str;
180	ret->type = sl_str32;
181	return 0;
182	}
183
184	void SLrDaodan_Initalize()
185	{
186	SLrScript_Command_Register_ReturnType("int32mul", "Multiplies two numbers", "n1:int n2:int", sl_int32, bsl_int32mul);
187	SLrScript_Command_Register_ReturnType("mul", "Multiplies two numbers", "[int1:int\|float1:float] [int2:int\|float2:float]", sl_float, bsl_mul);
188
189	SLrScript_Command_Register_ReturnType("int32div", "Divides two numbers", "n1:int n2:int", sl_int32, bsl_int32div);
190	SLrScript_Command_Register_ReturnType("div", "Divides two numbers", "[int1:int\|float1:float] [int2:int\|float2:float]", sl_float, bsl_div);
191
192	dsfmt_gv_init_gen_rand((uint32_t)time(NULL));
193	SLrScript_Command_Register_ReturnType("int32rand", "Returns a pseudo-random number between two numbers (inclusive).", "start:int end:int", sl_int32, bsl_int32rand);
194
195	SLrScript_Command_Register_ReturnType("chr_getkills","Gets the number of kills a character has", "[chrindex:int]", sl_int32, bsl_getkills);
196	SLrScript_Command_Register_ReturnType("chr_getdamage","Gets the amount of damage a character has caused", "[chrindex:int]", sl_int32, bsl_getdamage);
197
198	SLrScript_Command_Register_ReturnType("sprintf", "C-style sprintf.", "format:string arg1 arg2 ...", sl_str32, bsl_sprintf);
199	}