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#ifndef _ACI_H_ #define _ACI_H_ extern int aci_port; extern int aci_version; /* ACI firmware version */ extern int aci_rw_cmd(int write1, int write2, int write3); #define aci_indexed_cmd(a, b) aci_rw_cmd(a, b, -1) #define aci_write_cmd(a, b) aci_rw_cmd(a, b, -1) #define aci_read_cmd(a) aci_rw_cmd(a,-1, -1) #define COMMAND_REGISTER (aci_port) /* write register */ #define STATUS_REGISTER (aci_port + 1) /* read register */ #define BUSY_REGISTER (aci_port + 2) /* also used for rds */ #define RDS_REGISTER BUSY_REGISTER #define ACI_SET_MUTE 0x0d #define ACI_SET_POWERAMP 0x0f #define ACI_SET_TUNERMUTE 0xa3 #define ACI_SET_TUNERMONO 0xa4 #define ACI_SET_IDE 0xd0 #define ACI_SET_WSS 0xd1 #define ACI_SET_SOLOMODE 0xd2 #define ACI_WRITE_IGAIN 0x03 #define ACI_WRITE_TUNE 0xa7 #define ACI_READ_TUNERSTEREO 0xa8 #define ACI_READ_TUNERSTATION 0xa9 #define ACI_READ_VERSION 0xf1 #define ACI_READ_IDCODE 0xf2 #define ACI_INIT 0xff #define ACI_STATUS 0xf0 #define ACI_S_GENERAL 0x00 #define ACI_S_READ_IGAIN 0x21 #define ACI_ERROR_OP 0xdf /* * The following macro SCALE can be used to scale one integer volume * value into another one using only integer arithmetic. If the input * value x is in the range 0 <= x <= xmax, then the result will be in * the range 0 <= SCALE(xmax,ymax,x) <= ymax. * * This macro has for all xmax, ymax > 0 and all 0 <= x <= xmax the * following nice properties: * * - SCALE(xmax,ymax,xmax) = ymax * - SCALE(xmax,ymax,0) = 0 * - SCALE(xmax,ymax,SCALE(ymax,xmax,SCALE(xmax,ymax,x))) = SCALE(xmax,ymax,x) * * In addition, the rounding error is minimal and nicely distributed. * The proofs are left as an exercise to the reader. */ #define SCALE(xmax,ymax,x) (((x)*(ymax)+(xmax)/2)/(xmax)) #endif /* _ACI_H_ */ |